REFERENCES

1. Abazajian, K. N., Adelman-McCarthy, J. K., Agüeros, M. A., Allam, S. S., Allende Prieto, C., An, D., et al. , Jun. 2009. The Seventh Data Release of the Sloan Digital Sky Survey. ApJS 182, 543-558.

2. Abdalla, F., Annis, J., Bacon, D., Bridle, S., Castander, F., Colless, M., et al. , Sep. 2012. The Dark Energy Spectrometer (DESpec): A Multi-Fiber Spectroscopic Upgrade of the Dark Energy Camera and Survey for the Blanco Telescope. arXiv:1209.2451.

3. Abdalla, F. B., Rawlings, S., Jun. 2005. Probing dark energy with baryonic oscillations and future radio surveys of neutral hydrogen. MNRAS 360, 27-40.

4. Abell, G. O., May 1958. The Distribution of Rich Clusters of Galaxies. ApJS 3, 211-+.

5. Acquaviva, V., Hajian, A., Spergel, D. N., Das, S., 2008. Next Generation Redshift Surveys and the Origin of Cosmic Acceleration. Phys. Rev. D78, 043514.

6. Adami, C., Durret, F., Benoist, C., Coupon, J., Mazure, A., Meneux, B., et al. , Jan. 2010. Galaxy structure searches by photometric redshifts in the CFHTLS. A&A 509, A81+.

7. Afshordi, N., Loh, Y.-S., Strauss, M. A., Apr. 2004. Cross-correlation of the cosmic microwave background with the 2MASS galaxy survey: Signatures of dark energy, hot gas, and point sources. Phys. Rev. D69 (8), 083524.

8. Albrecht, A., Amendola, L., Bernstein, G., Clowe, D., Eisenstein, D., Guzzo, L., et al. , Jan. 2009. Findings of the Joint Dark Energy Mission Figure of Merit Science Working Group. arXiv:0901.0721.

9. Albrecht, A., Bernstein, G., 2007. Evaluating dark energy probes using multidimensional dark energy parameters. Phys. Rev. D75, 103003.

10. Albrecht, A., Bernstein, G., Cahn, R., Freedman, W. L., Hewitt, J., Hu, W., et al. , Sep. 2006. Report of the Dark Energy Task Force. arXiv:astro-ph/0609591.

11. Alcock, C., Paczynski, B., 1979. An evolution free test for non-zero cosmological constant. Nature 281, 358-359.

12. Aldering, G., Akerlof, C. W., Amanullah, R., Astier, P., Barrelet, E., Bebek, C., et al. , Nov. 2002. Overview of the SuperNova/Acceleration Probe (SNAP). Vol. 4835 of Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series. pp. 146-157.

13. Allen, S. W., Evrard, A. E., Mantz, A. B., Sep. 2011. Cosmological Parameters from Observations of Galaxy Clusters. ARA&A 49, 409-470.

14. Allen, S. W., Schmidt, R. W., Fabian, A. C., Ebeling, H., Jun. 2003. Cosmological constraints from the local X-ray luminosity function of the most X-ray-luminous galaxy clusters. MNRAS 342, 287-298.

15. Amanullah, R., Lidman, C., Rubin, D., Aldering, G., Astier, P., Barbary, K., Supernova Cosmology Project, Jun. 2010. Spectra and Hubble Space Telescope Light Curves of Six Type Ia Supernovae at 0.511 < z < 1.12 and the Union2 Compilation. ApJ 716, 712-738.

16. Amara, A., Kitching, T. D., May 2011. Figures of merit for testing standard models: application to dark energy experiments in cosmology. MNRAS 413, 1505-1514.

17. Amati, L., 2006. The Ep,i - Eiso correlation in GRBs: updated observational status, re-analysis and main implications. MNRAS 372, 233-245.

18. Amendola, L., Kainulainen, K., Marra, V., Quartin, M., Sep. 2010. Large-Scale Inhomogeneities May Improve the Cosmic Concordance of Supernovae. Phys. Rev. Lett. 105 (12), 121302.

19. Amendola, L., Quercellini, C., Giallongo, E., 2005. Constraints on perfect fluid and scalar field dark energy models from future redshift surveys. MNRAS 357, 429-439.

20. Anderson, L., Aubourg, E., Bailey, S., Bizyaev, D., Blanton, M., Bolton, A. S., et al. , Dec. 2012. The clustering of galaxies in the SDSS-III Baryon Oscillation Spectroscopic Survey: baryon acoustic oscillations in the Data Release 9 spectroscopic galaxy sample. MNRAS 427, 3435-3467.

21. Andreon, S., Moretti, A., Dec. 2011. Do X-ray dark or underluminous galaxy clusters exist? A&A 536, A37.

22. Angulo, R., Baugh, C. M., Frenk, C. S., Bower, R. G., Jenkins, A., Morris, S. L., Sep. 2005. Constraints on the dark energy equation of state from the imprint of baryons on the power spectrum of clusters. MNRAS 362, L25-L29.

23. Angulo, R. E., Baugh, C. M., Frenk, C. S., Lacey, C. G., Jan. 2008. The detectability of baryonic acoustic oscillations in future galaxy surveys. MNRAS 383, 755-776.

24. Angulo, R. E., Springel, V., White, S. D. M., Jenkins, A., Baugh, C. M., Frenk, C. S., Nov. 2012. Scaling relations for galaxy clusters in the Millennium-XXL simulation. MNRAS 426, 2046-2062.

25. Ansari, R., Le Goff, J. ., Magneville, C., Moniez, M., Palanque-Delabrouille, N., Rich, J., Ruhlmann-Kleider, V., Yhche, C., Jul. 2008. Reconstruction of HI power spectra with radio-interferometers to study dark energy. arXiv:0807.3614.

26. Armendariz-Picon, C., Mukhanov, V. F., Steinhardt, P. J., 2001. Essentials of k-essence. Phys. Rev. D63, 103510.

27. Arnalte-Mur, P., Labatie, A., Clerc, N., Martmnez, V. J., Starck, J.-L., Lachihze-Rey, M., Saar, E., Paredes, S., Jun. 2012. Wavelet analysis of baryon acoustic structures in the galaxy distribution. A&A 542, A34.

28. Arun, K. G., Iyer, B. R., Sathyaprakash, B. S., Sinha, S., Broeck, C. V. D., 2007. Higher signal harmonics, LISA's angular resolution and dark energy. Phys. Rev. D76, 104016.

29. Astier, P., Guy, J., Regnault, N., Pain, R., Aubourg, E., Balam, D., et al. , Feb. 2006. The Supernova Legacy Survey: measurement of Ω_m, Ω_N and w from the first year data set. A&A 447, 31-48.

30. Astier, P., Pain, R., Jul. 2012. Observational evidence of the accelerated expansion of the universe. Comptes Rendus Physique 13, 521-538.

31. Babul, A., White, S. D. M., Dec. 1991. Quasar-modulated galaxy clustering in a cold dark matter universe. MNRAS 253, 31P-34P.

32. Bacon, D. J., Massey, R. J., Refregier, A. R., Ellis, R. S., 2003. Joint Cosmic Shear Measurements with the Keck and William Herschel Telescopes. MNRAS 344, 673.

33. Bacon, D. J., Refregier, A. R., Ellis, R. S., 2000. Detection of Weak Gravitational Lensing by Large-scale Structure. MNRAS 318, 625.

34. Bacon, D. J., Taylor, A. N., Brown, M. L., Gray, M. E., Wolf, C., Meisenheimer, K., Dye, S., Wisotzki, L., Borch, A., Kleinheinrich, M., Nov. 2005. Evolution of the dark matter distribution with three-dimensional weak lensing. MNRAS 363, 723-733.

35. Bahcall, N. A., Dong, F., Bode, P., Kim, R., Annis, J., McKay, T. A., et al. , Mar. 2003. The Cluster Mass Function from Early Sloan Digital Sky Survey Data: Cosmological Implications. ApJ 585, 182-190.

36. Balbi, A., Quercellini, C., Dec. 2007. The time evolution of cosmological redshift as a test of dark energy. MNRAS 382, 1623-1629.

37. Baldauf, T., Smith, R. E., Seljak, U., Mandelbaum, R., 2010. An algorithm for the direct reconstruction of the dark matter correlation function from weak lensing and galaxy clustering. Phys. Rev. D81, 063531.

38. Baldwin, J. A., Jun. 1977. Luminosity Indicators in the Spectra of Quasi-Stellar Objects. ApJ 214, 679-684.

39. Ballinger, W. E., Peacock, J. A., Heavens, A. F., 1996. Measuring the cosmological constant with redshift surveys. MNRAS 282, 877-888.

40. Barausse, E., Matarrese, S., Riotto, A., Mar. 2005. Effect of inhomogeneities on the luminosity distance-redshift relation: Is dark energy necessary in a perturbed universe? Phys. Rev. D71 (6), 063537.

41. Bardeen, J. M., Bond, J. R., Kaiser, N., Szalay, A. S., 1986. The Statistics of Peaks of Gaussian Random Fields. ApJ 304, 15-61.

42. Barnard, M., Abrahamse, A., Albrecht, A., Bozek, B., Yashar, M., 2008. A measure of the impact of future dark energy experiments based on discriminating power among quintessence models. Phys. Rev. D78, 043528.

43. Barone-Nugent, R. L., Lidman, C., Wyithe, J. S. B., Mould, J., Howell, D. A., Hook, I. M., et al. , Sep. 2012. Near-infrared observations of Type Ia supernovae: the best known standard candle for cosmology. MNRAS 425, 1007-1012.

44. Bartelmann, M., Schneider, P., 2001. Weak Gravitational Lensing. Phys. Rept. 340, 291-472.

45. Bassett, B. A., Apr. 2005. Optimizing cosmological surveys in a crowded market. Phys. Rev. D71 (8), 083517.

46. Battaglia, N., Bond, J. R., Pfrommer, C., Sievers, J. L., Oct. 2012. On the Cluster Physics of Sunyaev-Zel'dovich and X-Ray Surveys. I. The Influence of Feedback, Non-thermal Pressure, and Cluster Shapes on Y-M Scaling Relations. ApJ 758, 74.

47. Bauer, A. H., Seitz, S., Jerke, J., Scalzo, R., Rabinowitz, D., Ellman, N., Baltay, C., May 2011. Measuring Lensing Magnification of Quasars by Large Scale Structure Using the Variability-Luminosity Relation. ApJ 732, 64.

48. Baumann, D., Nicolis, A., Senatore, L., Zaldarriaga, M., Jul. 2012. Cosmological non-linearities as an effective fluid. JCAP 7, 51.

49. Bean, R., Dori, O., Apr. 2004. Probing dark energy perturbations: The dark energy equation of state and speed of sound as measured by WMAP. Phys. Rev. D69 (8), 083503.

50. Bean, R., Tangmatitham, M., 2010. Current constraints on the cosmic growth history. Phys. Rev. D81, 083534.

51. Becker, M. R., Kravtsov, A. V., Oct. 2011. On the Accuracy of Weak-lensing Cluster Mass Reconstructions. ApJ 740, 25.

52. Belenkiy, A., Oct. 2012. Alexander Friedmann and the origins of modern cosmology. Physics Today 65, 38-43.

53. Benedict, G. F., et al. , 2007. Hubble Space Telescope Fine Guidance Sensor Parallaxes of Galactic Cepheid Variable Stars: Period-Luminosity Relations. AJ 133, 1810-1827.

54. Benmtez, N., Gaztaqaga, E., Miquel, R., Castander, F., Moles, M., Crocce, M., et al. , Jan. 2009. Measuring Baryon Acoustic Oscillations Along the Line of Sight with Photometric Redshifts: The PAU Survey. ApJ 691, 241-260.

55. Benjamin, J., Heymans, C., Semboloni, E., van Waerbeke, L., Hoekstra, H., Erben, T., Gladders, M. D., Hetterscheidt, M., Mellier, Y., Yee, H. K. C., Oct. 2007. Cosmological constraints from the 100-deg² weak-lensing survey. MNRAS 381, 702-712.

56. Benjamin, J., Van Waerbeke, L., Heymans, C., Kilbinger, M., Erben, T., Hildebrandt, H., et al. , Dec. 2012. CFHTLenS tomographic weak lensing: Quantifying accurate redshift distributions. arXiv:1212.3327.

57. Bennett, C. L., Halpern, M., Hinshaw, G., Jarosik, N., Kogut, A., Limon, M., et al. , Sep. 2003. First-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Preliminary Maps and Basic Results. ApJS 148, 1-27.

58. Benson, B. A., de Haan, T., Dudley, J. P., Reichardt, C. L., Aird, K. A., Andersson, K., et al. , Dec. 2011. Cosmological Constraints from Sunyaev-Zel'dovich-Selected Clusters with X-ray Observations in the First 178 Square Degrees of the South Pole Telescope Survey. arXiv:1112.5435.

59. Bentz, M. C., Peterson, B. M., Netzer, H., Pogge, R. W., Vestergaard, M., 2009. The Radius-Luminosity Relationship for Active Galactic Nuclei: The Effect of Host-Galaxy Starlight on Luminosity Measurements II. The Full Sample of Reverberation-Mapped AGNs. ApJ 697, 160-181.

60. Bergi, J., Price, S., Amara, A., Rhodes, J., Jan. 2012. On point spread function modelling: towards optimal interpolation. MNRAS 419, 2356-2368.

61. Berlind, A. A., Frieman, J., Weinberg, D. H., Blanton, M. R., Warren, M. S., Abazajian, K., et al. , Nov. 2006. Percolation Galaxy Groups and Clusters in the SDSS Redshift Survey: Identification, Catalogs, and the Multiplicity Function. ApJS 167, 1-25.

62. Berlind, A. A., Weinberg, D. H., 2002. The Halo Occupation Distribution: Towards an Empirical Determination of the Relation Between Galaxies and Mass. ApJ 575, 587-616.

63. Bernardeau, F., van Waerbeke, L., Mellier, Y., Jun. 1997. Weak lensing statistics as a probe of {OMEGA} and power spectrum. A&A 322, 1-18.

64. Bernstein, G., Feb. 2006. Metric Tests for Curvature from Weak Lensing and Baryon Acoustic Oscillations. ApJ 637, 598-607.

65. Bernstein, G. M., 2009. Comprehensive Two-Point Analyses of Weak Gravitational Lensing Surveys. ApJ 695, 652-665.

66. Bernstein, G. M., Aug. 2010. Shape measurement biases from underfitting and ellipticity gradients. MNRAS 406, 2793-2804.

67. Bernstein, G. M., Cai, Y.-C., Oct. 2011. Cosmology without cosmic variance. MNRAS 416, 3009-3016.

68. Bernstein, G. M., Jain, B., 2004. Dark Energy Constraints from Weak Lensing Cross- Correlation Cosmography. ApJ 600, 17-25.

69. Bernstein, G. M., Jarvis, M., 2002. Shapes and Shears, Stars and Smears: Optimal Measurements for Weak Lensing. AJ 123, 583-618.

70. Bernstein, G. M., Norberg, P., Aug. 2002. Shape Alignments of Satellite Galaxies. AJ 124, 733-736.

71. Bernstein, J. P., Kessler, R., Kuhlmann, S., Biswas, R., Kovacs, E., Aldering, G., et al. , Jul. 2012. Supernova Simulations and Strategies for the Dark Energy Survey. ApJ 753, 152.

72. Bertin, G., Lombardi, M., 2006. Looking at the Fundamental Plane through a gravitational lens. ApJ 648, L17-L20.

73. Bertone, G., Hooper, D., Silk, J., Jan. 2005. Particle dark matter: evidence, candidates and constraints. Phys Rep 405, 279-390.

74. Bertotti, B., Iess, L., Tortora, P., Sep. 2003. A test of general relativity using radio links with the Cassini spacecraft. Nature 425, 374-376.

75. Beutler, F., Blake, C., Colless, M., Jones, D. H., Staveley-Smith, L., Campbell, L., Parker, Q., Saunders, W., Watson, F., Oct. 2011. The 6dF Galaxy Survey: baryon acoustic oscillations and the local Hubble constant. MNRAS 416, 3017-3032.

76. Beutler, F., Blake, C., Colless, M., Jones, D. H., Staveley-Smith, L., Poole, G. B., Campbell, L., Parker, Q., Saunders, W., Watson, F., Jul. 2012. The 6dF Galaxy Survey: z ≈ 0 measurements of the growth rate and σ₈. MNRAS 423, 3430-3444.

77. Bhattacharya, S., Heitmann, K., White, M., Lukic, Z., Wagner, C., Habib, S., May 2011. Mass Function Predictions Beyond ΛCDM. ApJ 732, 122-+.

78. Biesiadzinski, T., McMahon, J., Miller, C. J., Nord, B., Shaw, L., Sep. 2012. Impact of Systematics on SZ-Optical Scaling Relations. ApJ 757, 1.

79. Blackburne, J. A., Kochanek, C. S., Jan. 2012. The Structure of 2MASS Galaxy Clusters. ApJ 744, 76.

80. Blake, C., Bridle, S., Nov. 2005. Cosmology with photometric redshift surveys. MNRAS 363, 1329-1348.

81. Blake, C., Brough, S., Colless, M., Contreras, C., Couch, W., Croom, S., et al. , Aug. 2011a. The WiggleZ Dark Energy Survey: the growth rate of cosmic structure since redshift z = 0.9. MNRAS 415, 2876-2891.

82. Blake, C., Collister, A., Bridle, S., Lahav, O., Feb. 2007. Cosmological baryonic and matter densities from 600000 SDSS luminous red galaxies with photometric redshifts. MNRAS 374, 1527-1548.

83. Blake, C., Davis, T., Poole, G. B., Parkinson, D., Brough, S., Colless, M., et al. , Aug. 2011b. The WiggleZ Dark Energy Survey: testing the cosmological model with baryon acoustic oscillations at z = 0.6. MNRAS 415, 2892-2909.

84. Blake, C., Glazebrook, K., Sep. 2003. Probing Dark Energy Using Baryonic Oscillations in the Galaxy Power Spectrum as a Cosmological Ruler. ApJ 594, 665-673.

85. Blake, C., Glazebrook, K., Davis, T. M., Brough, S., Colless, M., Contreras, C., et al. , Dec. 2011c. The WiggleZ Dark Energy Survey: measuring the cosmic expansion history using the Alcock-Paczynski test and distant supernovae. MNRAS 418, 1725-1735.

86. Blake, C., Kazin, E. A., Beutler, F., Davis, T. M., Parkinson, D., Brough, S., et al. , Oct. 2011d. The WiggleZ Dark Energy Survey: mapping the distance-redshift relation with baryon acoustic oscillations. MNRAS 1598-+.

87. Blake, C., Parkinson, D., Bassett, B., Glazebrook, K., Kunz, M., Nichol, R. C., Jan. 2006. Universal fitting formulae for baryon oscillation surveys. MNRAS 365, 255-264.

88. Blake, C. A., Abdalla, F. B., Bridle, S. L., Rawlings, S., 2004. Cosmology with the Square Kilometre Array. New Astron. Rev. 48, 1063-1077.

89. Blanchard, A., 2010. Evidence for the Fifth Element Astrophysical status of Dark Energy. Astron. Astrophys. Rev. 18, 595-645.

90. Blandford, R. D., Saust, A. B., Brainerd, T. G., Villumsen, J. V., Aug. 1991. The distortion of distant galaxy images by large-scale structure. MNRAS 251, 600-627.

91. Blazek, J., McQuinn, M., Seljak, U., 2011. Testing the tidal alignment model of galaxy intrinsic alignment. JCAP 1105, 010.

92. Bleem, L. E., van Engelen, A., Holder, G. P., Aird, K. A., Armstrong, R., Ashby, M. L. N., et al. , Jul. 2012. A Measurement of the Correlation of Galaxy Surveys with CMB Lensing Convergence Maps from the South Pole Telescope. ApJ Lett 753, L9.

93. Block, D. L., Jun. 2011. A Hubble Eclipse: Lemaitre and Censorship. arXiv:1106.3928.

94. Blondin, S., Matheson, T., Kirshner, R. P., Mandel, K. S., Berlind, P., Calkins, M., et al. , May 2012. The Spectroscopic Diversity of Type Ia Supernovae. AJ 143, 126.

95. Bvhringer, H., Schuecker, P., Guzzo, L., Collins, C. A., Voges, W., Cruddace, R. G., et al. , Oct. 2004. The ROSAT-ESO Flux Limited X-ray (REFLEX) Galaxy cluster survey. V. The cluster catalogue. A&A 425, 367-383.

96. Bvhringer, H., Voges, W., Huchra, J. P., McLean, B., Giacconi, R., Rosati, P., et al. , Aug. 2000. The Northern ROSAT All-Sky (NORAS) Galaxy Cluster Survey. I. X-Ray Properties of Clusters Detected as Extended X-Ray Sources. ApJS 129, 435-474.

97. Bolton, A. S., Rappaport, S., Burles, S., Sep. 2006. Constraint on the post-Newtonian parameter γ on galactic size scales. Phys. Rev. D74 (6), 061501.

98. Bond, J. R., Cole, S., Efstathiou, G., Kaiser, N., 1991. Excursion set mass functions for hierarchical Gaussian fluctuations. ApJ 379, 440.

99. Bond, J. R., Efstathiou, G., Oct. 1984. Cosmic background radiation anisotropies in universes dominated by nonbaryonic dark matter. ApJ Lett 285, L45-L48.

100. Bond, J. R., Efstathiou, G., Jun. 1987. The statistics of cosmic background radiation fluctuations. MNRAS 226, 655-687.

101. Book, L., Kamionkowski, M., Schmidt, F., May 2012. Lensing of 21-cm Fluctuations by Primordial Gravitational Waves. Phys. Rev. Lett. 108 (21), 211301.

102. Boughn, S. P., Crittenden, R. G., Sep. 2004. The Large-Scale Bias of the Hard X-Ray Background. ApJ 612, 647-651.

103. Boughn, S. P., Crittenden, R. G., Turok, N. G., Jul. 1998. Correlations between the cosmic X-ray and microwave backgrounds: constraints on a cosmological constant. NewA 3, 275-291.

104. Bower, R. G., Coles, P., Frenk, C. S., White, S. D. M., Mar. 1993. Cooperative galaxy formation and large-scale structure. ApJ 405, 403-412.

105. Boyle, L. A., Caldwell, R. R., Kamionkowski, M., Oct. 2002. Spintessence! New models for dark matter and dark energy. Physics Letters B 545, 17-22.

106. Brainerd, T. G., Blandford, R. D., Smail, I., 1996. Measuring Galaxy Masses Using Galaxy-Galaxy Graivtational Lensing. ApJ 466, 623.

107. Brandenberger, R. H., 2002. Back reaction of cosmological perturbations and the cosmological constant problem. < ahref="http://arxiv.org/abs/hep-th/0210165" target="ads_dw">hep-th/0210165.

108. Bridle, S., Balan, S. T., Bethge, M., Gentile, M., Harmeling, S., Heymans, C., et al. , Jul. 2010. Results of the GREAT08 Challenge: an image analysis competition for cosmological lensing. MNRAS 405, 2044-2061.

109. Bridle, S., King, L., 2007. Dark energy constraints from cosmic shear power spectra: impact of intrinsic alignments on photometric redshift requirements. New J. Phys. 9, 444.

110. Bridle, S. L., Kneib, J.-P., Bardeau, S., Gull, S. F., Mar. 2002. Bayesian Galaxy Shape Estimation. In: P. Natarajan (Ed.), The Shapes of Galaxies and their Dark Halos. pp. 38-46.

111. Brodwin, M., Brown, M. J. I., Ashby, M. L. N., Bian, C., Brand, K., Dey, A., et al. , Nov. 2006. Photometric Redshifts in the IRAC Shallow Survey. ApJ 651, 791-803.

112. Brodwin, M., Gonzalez, A. H., Stanford, S. A., Plagge, T., Marrone, D. P., Carlstrom, J. E., et al. , Jul. 2012. IDCS J1426.5+3508: Sunyaev-Zel'dovich Measurement of a Massive Infrared-selected Cluster at z = 1.75. ApJ 753, 162.

113. Brodwin, M., Stern, D., Vikhlinin, A., Stanford, S. A., Gonzalez, A. H., et al. , May 2011. X-ray Emission from Two Infrared-selected Galaxy Clusters at z > 1.4 in the IRAC Shallow Cluster Survey. ApJ 732, 33.

114. Brown, M. L., Battye, R. A., Jan. 2011. Polarization as an indicator of intrinsic alignment in radio weak lensing. MNRAS 410, 2057-2074.

115. Brown, M. L., Taylor, A. N., Bacon, D. J., Gray, M. E., Dye, S., Meisenheimer, K., Wolf, C., May 2003. The shear power spectrum from the COMBO-17 survey. MNRAS 341, 100-118.

116. Bruzual, G., Charlot, S., 2003. Stellar population synthesis at the resolution of 2003. MNRAS 344, 1000.

117. Bucher, M., Goldhaber, A. S., Turok, N., 1995. An open universe from inflation. Phys. Rev. D52, 3314-3337.

118. Buchert, T., Aug. 2011. Toward physical cosmology: focus on inhomogeneous geometry and its non-perturbative effects. Classical and Quantum Gravity 28 (16), 164007.

119. Bullock, J. S., Kolatt, T. S., Sigad, Y., Somerville, R. S., Kravtsov, A. V., Klypin, A. A., Primack, J. R., Dekel, A., Mar. 2001. Profiles of dark haloes: evolution, scatter and environment. MNRAS 321, 559-575.

120. Burenin, R. A., Vikhlinin, A., Hornstrup, A., Ebeling, H., Quintana, H., Mescheryakov, A., Oct. 2007. The 400 Square Degree ROSAT PSPC Galaxy Cluster Survey: Catalog and Statistical Calibration. ApJS 172, 561-582.

121. Burke, D. J., Collins, C. A., Sharples, R. M., Romer, A. K., Nichol, R. C., Jun. 2003. The Southern SHARC catalogue: a ROSAT survey for distant galaxy clusters. MNRAS 341, 1093-1108.

122. Busca, N. G., Delubac, T., Rich, J., Bailey, S., Font-Ribera, A., Kirkby, D., et al. , Nov. 2012. Baryon Acoustic Oscillations in the Ly-alpha forest of BOSS quasars. arXiv:1211.2616.

123. Cabri, A., Gaztaqaga, E., Mar. 2011. Have baryonic acoustic oscillations in the galaxy distribution really been measured? MNRAS 412, L98-L102.

124. Cai, Y.-C., Bernstein, G., May 2012. Combining weak-lensing tomography and spectroscopic redshift surveys. MNRAS 422, 1045-1056.

125. Caldwell, R. R., Linder, E. V., 2005. The limits of quintessence. Phys. Rev. Lett. 95, 141301.

126. Campbell, H., D'Andrea, C. B., Nichol, R. C., Sako, M., Smith, M., Lampeitl, H., et al. , Nov. 2012. Cosmology with Photometrically-Classified Type Ia Supernovae from the SDSS-II Supernova Survey. arXiv:1211.4480.

127. Capozziello, S., Cardone, V. F., Funaro, M., Andreon, S., Dec. 2004. Constraining dark energy models using the lookback time to galaxy clusters and the age of the universe. Phys. Rev. D70 (12), 123501.

128. Capozziello, S., Fang, L. Z., 2002. Curvature Quintessence. International Journal of Modern Physics D 11, 483-491.

129. Carbone, C., Mangilli, A., Verde, L., Sep. 2011. Isocurvature modes and Baryon Acoustic Oscillations II: gains from combining CMB and Large Scale Structure. JCAP 9, 28-+.

130. Cardelli, J. A., Clayton, G. C., Mathis, J. S., Oct. 1989. The relationship between infrared, optical, and ultraviolet extinction. ApJ 345, 245-256.

131. Carlberg, R. G., Yee, H. K. C., Ellingson, E., Morris, S. L., Abraham, R., Gravel, P., et al. , Aug. 1997. The Average Mass Profile of Galaxy Clusters. ApJ Lett 485, L13.

132. Carlson, J., White, M., Padmanabhan, N., 2009. A critical look at cosmological perturbation theory techniques. Phys. Rev. D80, 043531.

133. Carroll, S. M., 2003. Why is the universe accelerating? astro-ph/0310342.

134. Carroll, S. M., Duvvuri, V., Trodden, M., Turner, M. S., Aug. 2004. Is cosmic speed-up due to new gravitational physics? Phys. Rev. D70 (4), 043528.

135. Catelan, P., Kamionkowski, M., Blandford, R. D., Jan. 2001. Intrinsic and extrinsic galaxy alignment. MNRAS 320, L7-L13.

136. Chaboyer, B., 1998. The Age of the Universe. Phys. Rept. 307, 23-30.

137. Chaboyer, B., Demarque, P., Kernan, P. J., Krauss, L. M., Feb. 1996. A Lower Limit on the Age of the Universe. Science 271, 957-961.

138. Chang, P., Hui, L., 2011. Stellar Structure and Tests of Modified Gravity. ApJ 732, 25.

139. Chang, T.-C., Pen, U.-L., Bandura, K., Peterson, J. B., Jul. 2010. An intensity map of hydrogen 21-cm emission at redshift z ~ 0.8. Nature 466, 463-465.

140. Chang, T.-C., Pen, U.-L., Peterson, J. B., McDonald, P., Mar. 2008. Baryon Acoustic Oscillation Intensity Mapping of Dark Energy. Phys. Rev. Lett. 100 (9), 091303-+.

141. Chang, T.-C., Refregier, A., Helfand, D. J., 2004. Weak Lensing by Large-Scale Structure with the FIRST Radio Survey. ApJ 617, 794-810.

142. Chevallier, M., Polarski, D., 2001. Accelerating Universes with Scaling Dark Matter. International Journal of Modern Physics D 10, 213-223.

143. Chiba, T., Nov. 2003. 1/R gravity and scalar-tensor gravity. Physics Letters B 575, 1-3.

144. Chotard, N., Gangler, E., Aldering, G., Antilogus, P., Aragon, C., Bailey, S., Nearby Supernova Factory, May 2011. The reddening law of type Ia supernovae: separating intrinsic variability from dust using equivalent widths. A&A 529, L4.

145. Chuang, C.-H., Wang, Y., Oct. 2012. Measurements of H(z) and D_A(z) from the two-dimensional two-point correlation function of Sloan Digital Sky Survey luminous red galaxies. MNRAS 426, 226-236.

146. Clowe, D., Bradac, M., Gonzalez, A. H., Markevitch, M., Randall, S. W., Jones, C., Zaritsky, D., Sep. 2006. A Direct Empirical Proof of the Existence of Dark Matter. ApJ Lett 648, L109-L113.

147. Coe, D., Moustakas, L. A., Nov. 2009. Cosmological Constraints from Gravitational Lens Time Delays. ApJ 706, 45-59.

148. Cohn, J. D., Evrard, A. E., White, M., Croton, D., Ellingson, E., Dec. 2007. Red-sequence cluster finding in the Millennium Simulation. MNRAS 382, 1738-1750.

149. Coil, A. L., Gerke, B. F., Newman, J. A., Ma, C., Yan, R., Cooper, M. C., Davis, M., Faber, S. M., Guhathakurta, P., Koo, D. C., Feb. 2006. The DEEP2 Galaxy Redshift Survey: Clustering of Groups and Group Galaxies at z ~ 1. ApJ 638, 668-685.

150. Cole, S., Fisher, K. B., Weinberg, D. H., 1994. Fourier analysis of redshift space distortions and the determination of Omega. MNRAS 267, 785.

151. Cole, S., Fisher, K. B., Weinberg, D. H., 1995. Constraints on Omega from the IRAS redshift surveys. MNRAS 275, 515.

152. Cole, S., Kaiser, N., Apr. 1989. Biased clustering in the cold dark matter cosmogony. MNRAS 237, 1127-1146.

153. Cole, S., Percival, W. J., Peacock, J. A., Norberg, P., Baugh, C. M., Frenk, C. S., et al. , Sep. 2005. The 2dF Galaxy Redshift Survey: power-spectrum analysis of the final data set and cosmological implications. MNRAS 362, 505-534.

154. Cole, S., Weinberg, D. H., Frenk, C. S., Ratra, B., 1997. Large-scale structure in COBE-normalized cold dark matter cosmogonies. MNRAS 289, 37.

155. Colombo, L. P. L., Pierpaoli, E., Apr. 2009. Model independent approaches to reionization in the analysis of upcoming CMB data. NewAst 14, 269-276.

156. Committee On The Physics Of The Universe, 2003. Connecting quarks with the cosmos : eleven science questions for the new century. National Academies Press, Washington, D.C.

157. Conley, A., Guy, J., Sullivan, M., Regnault, N., Astier, P., Balland, C., et al. , Jan. 2011. Supernova Constraints and Systematic Uncertainties from the First Three Years of the Supernova Legacy Survey. ApJS 192, 1-+.

158. Conley, A., Sullivan, M., Hsiao, E. Y., Guy, J., Astier, P., Balam, D., et al. , Jul. 2008. SiFTO: An Empirical Method for Fitting SN Ia Light Curves. ApJ 681, 482-498.

159. Conroy, C., Wechsler, R. H., Kravtsov, A. V., 2006. Modeling Luminosity-Dependent Galaxy Clustering Through Cosmic Time. ApJ 647, 201-214.

160. Contreras, C., Hamuy, M., Phillips, M. M., Folatelli, G., Suntzeff, N. B., Persson, S. E., et al. , Feb. 2010. The Carnegie Supernova Project: First Photometry Data Release of Low-Redshift Type Ia Supernovae. AJ 139, 519-539.

161. Cooray, A., Hu, W., Feb. 2001. Weak Gravitational Lensing Bispectrum. ApJ 548, 7-18.

162. Copeland, E. J., Sami, M., Tsujikawa, S., 2006. Dynamics of Dark Energy. International Journal of Modern Physics D 15, 1753-1935.

163. Corasaniti, P.-S., Huterer, D., Melchiorri, A., 2007. Exploring the Dark Energy Redshift Desert with the Sandage-Loeb Test. Phys. Rev. D75, 062001.

164. Crittenden, R. G., Pogosian, L., Zhao, G.-B., 2009. Investigating dark energy experiments with principal components. JCAP 0912, 025.

165. Crittenden, R. G., Zhao, G.-B., Pogosian, L., Samushia, L., Zhang, X., Feb. 2012. Fables of reconstruction: controlling bias in the dark energy equation of state. JCAP 2, 48.

166. Crocce, M., Gaztaqaga, E., Cabri, A., Carnero, A., Sanchez, E., Nov. 2011. Clustering of photometric luminous red galaxies - I. Growth of structure and baryon acoustic feature. MNRAS 417, 2577-2591.

167. Crocce, M., Scoccimarro, R., Jan. 2008. Nonlinear evolution of baryon acoustic oscillations. Phys. Rev. D77 (2), 023533-+.

168. Croft, R. A. C., Gaztanaga, E., Mar. 1997. Reconstruction of cosmological density and velocity fields in the Lagrangian Zel'dovich approximation. MNRAS 285, 793-805.

169. Croft, R. A. C., Weinberg, D. H., Katz, N., Hernquist, L., 1998. Recovery of the Power Spectrum of Mass Fluctuations from Observations of the Lyman-alpha Forest. ApJ 495, 44.

170. Croft, R. A. C., et al. , 2002. Towards a Precise Measurement of Matter Clustering: Lyman- alpha Forest Data at Redshifts 2-4. ApJ 581, 20-52.

171. Cui, W., Borgani, S., Dolag, K., Murante, G., Tornatore, L., Jul. 2012. The effects of baryons on the halo mass function. MNRAS 423, 2279-2287.

172. Cunha, C., Mar. 2009. Cross-calibration of cluster mass observables. Phys. Rev. D79 (6), 063009-+.

173. Cunha, C., Huterer, D., Dori, O., Jul. 2010. Primordial non-Gaussianity from the covariance of galaxy cluster counts. Phys. Rev. D82 (2), 023004.

174. Cunha, C., Huterer, D., Frieman, J. A., Sep. 2009. Constraining dark energy with clusters: Complementarity with other probes. Phys. Rev. D80 (6), 063532-+.

175. Cunha, C. E., Evrard, A. E., Apr. 2010. Sensitivity of galaxy cluster dark energy constraints to halo modeling uncertainties. Phys. Rev. D81 (8), 083509.

176. Cutler, C., Holz, D. E., Nov. 2009. Ultrahigh precision cosmology from gravitational waves. Phys. Rev. D80 (10), 104009-+.

177. Cypriano, E. S., Amara, A., Voigt, L. M., Bridle, S. L., Abdalla, F. B., Rifrigier, A., Seiffert, M., Rhodes, J., Jun. 2010. Cosmic shear requirements on the wavelength dependence of telescope point spread functions. MNRAS 405, 494-502.

178. Dalal, N., Dori, O., Huterer, D., Shirokov, A., Jun. 2008. Imprints of primordial non-Gaussianities on large-scale structure: Scale-dependent bias and abundance of virialized objects. Phys. Rev. D77 (12), 123514.

179. Dalal, N., Holz, D. E., Hughes, S. A., Jain, B., 2006. Short GRB and binary black hole standard sirens as a probe of dark energy. Phys. Rev. D74, 063006.

180. D'Aloisio, A., Natarajan, P., Mar. 2011. Cosmography with cluster strong lenses: the influence of substructure and line-of-sight haloes. MNRAS 411, 1628-1640.

181. Daly, R. A., May 1994. Cosmology with powerful extended radio sources. ApJ 426, 38-50.

182. Daly, R. A., Guerra, E. J., 2002. Quintessence, cosmology, and FRIIb radio galaxies. AJ 124, 1831.

183. Daly, R. A., Mory, M. P., O'Dea, C. P., Kharb, P., Baum, S., Guerra, E. J., Djorgovski, S. G., Feb. 2009. Cosmological Studies with Radio Galaxies and Supernovae. ApJ 691, 1058-1067.

184. D'Amico, G., Musso, M., Noreqa, J., Paranjape, A., Feb. 2011. An improved calculation of the non-Gaussian halo mass function. JCAP 2, 1.

185. Daniel, S. F., Linder, E. V., 2010. Confronting General Relativity with Further Cosmological Data. Phys. Rev. D82, 103523.

186. Das, S., Sherwin, B. D., Aguirre, P., Appel, J. W., Bond, J. R., Carvalho, C. S., et al. , Jul. 2011. Detection of the Power Spectrum of Cosmic Microwave Background Lensing by the Atacama Cosmology Telescope. Phys. Rev. Lett. 107 (2), 021301.

187. Dawson, K. S., Schlegel, D. J., Ahn, C. P., Anderson, S. F., Aubourg, I., Bailey, S., et al. , Jan. 2013. The Baryon Oscillation Spectroscopic Survey of SDSS-III. AJ 145, 10.

188. de Bernardis, F., Bean, R., Galli, S., Melchiorri, A., Silk, J. I., Verde, L., Feb. 2009. Delayed recombination and standard rulers. Phys. Rev. D79 (4), 043503-+.

189. de Bernardis, P., Ade, P. A. R., Bock, J. J., Bond, J. R., Borrill, J., Boscaleri, A., et al., Apr. 2000. A flat Universe from high-resolution maps of the cosmic microwave background radiation. Nature 404, 955-959.

190. de Putter, R., Huterer, D., Linder, E. V., 2010. Measuring the Speed of Dark: Detecting Dark Energy Perturbations. Phys. Rev. D81, 103513.

191. de Putter, R., Linder, E. V., 2008. To Bin or Not To Bin: Decorrelating the Cosmic Equation of State. Astropart. Phys. 29, 424-441.

192. de Putter, R., Zahn, O., Linder, E. V., Mar. 2009. CMB lensing constraints on neutrinos and dark energy. Phys. Rev. D79 (6), 065033-+.

193. DeDeo, S., Caldwell, R. R., Steinhardt, P. J., May 2003. Effects of the sound speed of quintessence on the microwave background and large scale structure. Phys. Rev. D67 (10), 103509.

194. degl'Innocenti, S., Fiorentini, G., Raffelt, G. G., Ricci, B., Weiss, A., Aug. 1996. Time-variation of Newton's constant and the age of globular clusters. A&A 312, 345-352.

195. Demarco, R., Wilson, G., Muzzin, A., Lacy, M., Surace, J., Yee, H. K. C., Hoekstra, H., Blindert, K., Gilbank, D., Mar. 2010. Spectroscopic Confirmation of Three Red-sequence Selected Galaxy Clusters at z = 0.87, 1.16, and 1.21 from the SpARCS Survey. ApJ 711, 1185-1197.

196. Demianski, M., Piedipalumbo, E., Aug. 2011. Standardizing the gamma-ray bursts with the Amati E_p,i - E_iso relation: the updated Hubble diagram and implications for cosmography. MNRAS 415, 3580-3590.

197. Diaferio, A., Nov. 1999. Mass estimation in the outer regions of galaxy clusters. MNRAS 309, 610-622.

198. Dick, J., Knox, L., Chu, M., 2006. Reduction of Cosmological Data for the Detection of Time- varying Dark Energy Density. JCAP 0607, 001.

199. Dicke, R., Peebles, P., 1979. in General relativity. An Einstein centenary survey, eds. S. Hawking and W. Israel. Cambridge University Press, Cambridge, UK.

200. Dicke, R. H., Peebles, P. J. E., Roll, P. G., Wilkinson, D. T., 1965. Cosmic Black-Body Radiation. ApJ 142, 414-419.

201. Dietrich, J. P., Hartlap, J., Feb. 2010. Cosmology with the shear-peak statistics. MNRAS 402, 1049-1058.

202. Dodelson, S., 2003. Modern Cosmology. Academic Press, Amsterdam.

203. Dodelson, S., Rozo, E., Stebbins, A., 2003. Primordial gravity waves and weak lensing. Phys. Rev. Lett. 91, 021301.

204. Dolney, D., Jain, B., Takada, M., Mar. 2006. Baryon oscillations and dark-energy constraints from imaging surveys. MNRAS 366, 884-898.

205. Donahue, M., Voit, G. M., Gioia, I., Lupino, G., Hughes, J. P., Stocke, J. T., Aug. 1998. A Very Hot, High-Redshift Cluster of Galaxies: More Trouble for Omega 0=1. ApJ 502, 550-+.

206. Doran, M., Robbers, G., Wetterich, C., Jan. 2007. Impact of three years of data from the Wilkinson Microwave Anisotropy Probe on cosmological models with dynamical dark energy. Phys. Rev. D75 (2), 023003-+.

207. Draper, P., Dodelson, S., Hao, J., Rozo, E., Jan. 2012. Sunyaev-Zel'dovich signal of the maxBCG SDSS galaxy clusters in WMAP. Phys. Rev. D85 (2), 023005.

208. Dressler, A., Spergel, D., Mountain, M., Postman, M., Elliott, E., Bendek, E., et al. , Oct. 2012. Exploring the NRO Opportunity for a Hubble-sized Wide-field Near-IR Space Telescope - NEW WFIRST. arXiv:1210.7809.

209. Dvali, G. R., Gabadadze, G., Porrati, M., 2000. 4D gravity on a brane in 5D Minkowski space. Phys. Lett. B485, 208-214.

210. Ebeling, H., Edge, A. C., Allen, S. W., Crawford, C. S., Fabian, A. C., Huchra, J. P., Oct. 2000. The ROSAT Brightest Cluster Sample - IV. The extended sample. MNRAS 318, 333-340.

211. Ebeling, H., Edge, A. C., Mantz, A., Barrett, E., Henry, J. P., Ma, C. J., van Speybroeck, L., Sep. 2010. The X-ray brightest clusters of galaxies from the Massive Cluster Survey. MNRAS 407, 83-93.

212. Efstathiou, G., Jun. 1995. An anthropic argument for a cosmological constant. MNRAS 274, L73-L76.

213. Efstathiou, G., Bond, J. R., Mar. 1999. Cosmic confusion: degeneracies among cosmological parameters derived from measurements of microwave background anisotropies. MNRAS 304, 75-97.

214. Efstathiou, G., Frenk, C. S., White, S. D. M., Davis, M., Dec. 1988. Gravitational clustering from scale-free initial conditions. MNRAS 235, 715-748.

215. Efstathiou, G., Moody, S., Peacock, J. A., Percival, W. J., Baugh, C., Bland-Hawthorn, J., et al. , Feb. 2002. Evidence for a non-zero Λ and a low matter density from a combined analysis of the 2dF Galaxy Redshift Survey and cosmic microwave background anisotropies. MNRAS 330, L29-L35.

216. Efstathiou, G., Sutherland, W. J., Maddox, S. J., 1990. The cosmological constant and cold dark matter. Nature 348, 705-707.

217. Einstein, A., 1917. Cosmological Considerations in the General Theory of Relativity. Sitzungsber. Preuss. Akad. Wiss. Berlin (Math. Phys. ) 1917, 142-152.

218. Eisenhardt, P. R. M., Brodwin, M., Gonzalez, A. H., Stanford, S. A., Stern, D., Barmby, P., et al. , Sep. 2008. Clusters of Galaxies in the First Half of the Universe from the IRAC Shallow Survey. ApJ 684, 905-932.

219. Eisenstein, D., 2002. Large-Scale Structure and Future Surveys. In: M. J. I. Brown & A. Dey (Ed.), Next Generation Wide-Field Multi-Object Spectroscopy. Vol. 280 of Astronomical Society of the Pacific Conference Series. pp. 35-+.

220. Eisenstein, D., White, M., Nov. 2004. Theoretical uncertainty in baryon oscillations. Phys. Rev. D70 (10), 103523-+.

221. Eisenstein, D. J., Annis, J., Gunn, J. E., Szalay, A. S., Connolly, A. J., Nichol, R. C., et al. , Nov. 2001. Spectroscopic Target Selection for the Sloan Digital Sky Survey: The Luminous Red Galaxy Sample. AJ 122, 2267-2280.

222. Eisenstein, D. J., Bennett, C. L., 2008. Cosmic sound waves rule. Physics Today 61 (4), 040000-+.

223. Eisenstein, D. J., Hu, W., Mar. 1998. Baryonic Features in the Matter Transfer Function. ApJ 496, 605-+.

224. Eisenstein, D. J., Hu, W., Jan. 1999. Power Spectra for Cold Dark Matter and Its Variants. ApJ 511, 5-15.

225. Eisenstein, D. J., Hu, W., Tegmark, M., Sep. 1998. Cosmic Complementarity: H 0 and Omega M from Combining Cosmic Microwave Background Experiments and Redshift Surveys. ApJ Lett 504, L57+.

226. Eisenstein, D. J., Seo, H.-J., Sirko, E., Spergel, D. N., Aug. 2007a. Improving Cosmological Distance Measurements by Reconstruction of the Baryon Acoustic Peak. ApJ 664, 675-679.

227. Eisenstein, D. J., Seo, H.-J., White, M., Aug. 2007b. On the Robustness of the Acoustic Scale in the Low-Redshift Clustering of Matter. ApJ 664, 660-674.

228. Eisenstein, D. J., Weinberg, D. H., Agol, E., Aihara, H., Allende Prieto, C., Anderson, S. F., et al. , Sep. 2011. SDSS-III: Massive Spectroscopic Surveys of the Distant Universe, the Milky Way, and Extra-Solar Planetary Systems. AJ 142, 72-+.

229. Eisenstein, D. J., et al. , 2005. Detection of the Baryon Acoustic Peak in the Large-Scale Correlation Function of SDSS Luminous Red Galaxies. ApJ 633, 560-574.

230. Eke, V. R., Cole, S., Frenk, C. S., Patrick Henry, J., Aug. 1998. Measuring Omega_0 using cluster evolution. MNRAS 298, 1145-1158.

231. Erben, T., Hildebrandt, H., Miller, L., van Waerbeke, L., Heymans, C., Hoekstra, H., et al. , Oct. 2012. CFHTLenS: The Canada-France-Hawaii Telescope Lensing Survey - Imaging Data and Catalogue Products. arXiv:1210.8156.

232. Erickson, B. M. S., Cunha, C. E., Evrard, A. E., Nov. 2011. Influence of projection in cluster cosmology studies. Phys. Rev. D84 (10), 103506.

233. Erickson, J. K., Caldwell, R. R., Steinhardt, P. J., Armendariz-Picon, C., Mukhanov, V., Mar. 2002. Measuring the Speed of Sound of Quintessence. Phys. Rev. Lett. 88 (12), 121301.

234. Evrard, A. E., Jun. 1989. Biased cold dark matter theory - Trouble from rich clusters? ApJ Lett 341, L71-L74.

235. Evrard, A. E., Dec. 1997. The intracluster gas fraction in X-ray clusters - Constraints on the clustered mass density. MNRAS 292, 289-+.

236. Faber, S. M., Gallagher, J. S., 1979. Masses and mass-to-light ratios of galaxies. ARA&A 17, 135-187.

237. Fabjan, D., Borgani, S., Rasia, E., Bonafede, A., Dolag, K., Murante, G., Tornatore, L., Sep. 2011. X-ray mass proxies from hydrodynamic simulations of galaxy clusters - I. MNRAS 416, 801-816.

238. Feldman, H. A., Kaiser, N., Peacock, J. A., May 1994. Power-spectrum analysis of three-dimensional redshift surveys. ApJ 426, 23-37.

239. Ferreira, P. G., Joyce, M., Dec. 1997. Structure Formation with a Self-Tuning Scalar Field. Phys. Rev. Lett. 79, 4740-4743.

240. Filippenko, A. V., 1997. Optical Spectra of Supernovae. ARA&A 35, 309-355.

241. Fischer, P., McKay, T. A., Sheldon, E., Connolly, A., Stebbins, A., Frieman, J. A., et al. , Sep. 2000. Weak Lensing with Sloan Digital Sky Survey Commissioning Data: The Galaxy-Mass Correlation Function to 1 H^-1 Mpc. AJ 120, 1198-1208.

242. Folatelli, G., Phillips, M. M., Burns, C. R., Contreras, C., Hamuy, M., Freedman, W. L., et al. , Jan. 2010. The Carnegie Supernova Project: Analysis of the First Sample of Low-Redshift Type-Ia Supernovae. AJ 139, 120-144.

243. Foley, R. J., Apr. 2012. The Relation between Ejecta Velocity, Intrinsic Color, and Host-galaxy Mass for High-redshift Type Ia Supernovae. ApJ 748, 127.

244. Foley, R. J., Sanders, N. E., Kirshner, R. P., Dec. 2011. Velocity Evolution and the Intrinsic Color of Type Ia Supernovae. ApJ 742, 89.

245. Fort, B., Mellier, Y., 1994. Arc(let)s in clusters of galaxies. A&A Rev 5, 239-292.

246. Fosalba, P., Gaztaqaga, E., May 2004. Measurement of the gravitational potential evolution from the cross-correlation between WMAP and the APM Galaxy Survey. MNRAS 350, L37-L41.

247. Fosalba, P., Gaztaqaga, E., Castander, F. J., Nov. 2003. Detection of the Integrated Sachs-Wolfe and Sunyaev-Zeldovich Effects from the Cosmic Microwave Background-Galaxy Correlation. ApJ Lett 597, L89-L92.

248. Freedman, W. L., Burns, C. R., Phillips, M. M., Wyatt, P., Persson, S. E., Madore, B. F., et al. , Oct. 2009. The Carnegie Supernova Project: First Near-Infrared Hubble Diagram to z ~ 0.7. ApJ 704, 1036-1058.

249. Freedman, W. L., Madore, B. F., Sep. 2010. The Hubble Constant. ARA&A 48, 673-710.

250. Freedman, W. L., Madore, B. F., Gibson, B. K., Ferrarese, L., Kelson, D. D., Sakai, S., et al. , May 2001. Final Results from the Hubble Space Telescope Key Project to Measure the Hubble Constant. ApJ 553, 47-72.

251. Freedman, W. L., Madore, B. F., Mould, J. R., Hill, R., Ferrarese, L., et al. , Oct. 1994. Distance to the Virgo cluster galaxy M100 from Hubble Space Telescope observations of Cepheids. Nature 371, 757-762.

252. Freedman, W. L., Madore, B. F., Scowcroft, V., Burns, C., Monson, A., Persson, S. E., Seibert, M., Rigby, J., Oct. 2012. Carnegie Hubble Program: A Mid-infrared Calibration of the Hubble Constant. ApJ 758, 24.

253. Freedman, W. L., Madore, B. F., Scowcroft, V., Monson, A., Persson, S. E., Seibert, M., Rigby, J. R., Sturch, L., Stetson, P., Dec. 2011. The Carnegie Hubble Program. AJ 142, 192.

254. Freese, K., 2005. Cardassian expansion: Dark energy density from modified Friedmann equations. New Astron. Rev. 49, 103-109.

255. Freese, K., Lewis, M., 2002. Cardassian Expansion: a Model in which the Universe is Flat, Matter Dominated, and Accelerating. Phys. Lett. B540, 1-8.

256. Friedmann, A., 1922. On the curvature of space. Z. Phys. 10, 377.

257. Friedmann, A., 1924. On the possibility of a world with constant negative curvature of space. Z. Phys. 21, 326.

258. Frieman, J. A., 1996. Weak Lensing and the Measurement of q₀; from Type Ia Supernovae. Comments on Astrophysics 18, 323.

259. Frieman, J. A., Bassett, B., Becker, A., Choi, C., Cinabro, D., DeJongh, F., et al. , Jan. 2008. The Sloan Digital Sky Survey-II Supernova Survey: Technical Summary. AJ 135, 338-347.

260. Frieman, J. A., Hill, C. T., Stebbins, A., Waga, I., Sep. 1995. Cosmology with Ultralight Pseudo Nambu-Goldstone Bosons. Phys. Rev. Lett. 75, 2077-2080.

261. Frieman, J. A., Turner, M., Huterer, D., 2008. Dark Energy and the Accelerating Universe. Ann. Rev. A&A 46, 385-432.

262. Fruchter, A. S., Apr. 2011. A New Method for Band-limited Imaging with Undersampled Detectors. PASP 123, 497-502.

263. Fruchter, A. S., Hook, R. N., 2002. Drizzle: A Method for the Linear Reconstruction of Undersampled Images. PASP 114, 144-152.

264. Fu, L., Semboloni, E., Hoekstra, H., Kilbinger, M., van Waerbeke, L., Tereno, I., et al. , Feb. 2008. Very weak lensing in the CFHTLS wide: cosmology from cosmic shear in the linear regime. A&A 479, 9-25.

265. Gao, L., Springel, V., White, S. D. M., Oct. 2005. The age dependence of halo clustering. MNRAS 363, L66-L70.

266. Gao, L., White, S. D. M., Apr. 2007. Assembly bias in the clustering of dark matter haloes. MNRAS 377, L5-L9.

267. Gaztaqaga, E., Cabri, A., Hui, L., Nov. 2009. Clustering of luminous red galaxies - IV. Baryon acoustic peak in the line-of-sight direction and a direct measurement of H(z). MNRAS 399, 1663-1680.

268. Gaztaqaga, E., Eriksen, M., Crocce, M., Castander, F. J., Fosalba, P., Marti, P., Miquel, R., Cabri, A., Jun. 2012. Cross-correlation of spectroscopic and photometric galaxy surveys: cosmology from lensing and redshift distortions. MNRAS 422, 2904-2930.

269. Geach, J. E., Sobral, D., Hickox, R. C., Wake, D. A., Smail, I., Best, P. N., Baugh, C. M., Stott, J. P., Oct. 2012. The clustering of Hα emitters at z=2.23 from HiZELS. MNRAS 426, 679-689.

270. George, M. R., Leauthaud, A., Bundy, K., Finoguenov, A., Ma, C.-P., Rykoff, E. S., Tinker, J. L., Wechsler, R. H., Massey, R., Mei, S., Sep. 2012. Galaxies in X-Ray Groups. II. A Weak Lensing Study of Halo Centering. ApJ 757, 2.

271. Gerke, B. F., Newman, J. A., Davis, M., Marinoni, C., Yan, R., Coil, A. L., et al. , May 2005. The DEEP2 Galaxy Redshift Survey: First Results on Galaxy Groups. ApJ 625, 6-22.

272. Gettings, D. P., Gonzalez, A. H., Stanford, S. A., Eisenhardt, P. R. M., Brodwin, M., Mancone, C., et al. , Nov. 2012. The Massive Distant Clusters of WISE Survey: The First Distant Galaxy Cluster Discovered by WISE. ApJ Lett 759, L23.

273. Ghirlanda, G., Ghisellini, G., Firmani, C., 2006. Gamma Ray Bursts as standard candles to constrain the cosmological parameters. New J. Phys. 8, 123.

274. Giannantonio, T., Scranton, R., Crittenden, R. G., Nichol, R. C., Boughn, S. P., Myers, A. D., Richards, G. T., Jun. 2008. Combined analysis of the integrated Sachs-Wolfe effect and cosmological implications. Phys. Rev. D77 (12), 123520.

275. Giodini, S., Pierini, D., Finoguenov, A., Pratt, G. W., Boehringer, H., Leauthaud, A., et al. , Sep. 2009. Stellar and Total Baryon Mass Fractions in Groups and Clusters Since Redshift 1. ApJ 703, 982-993.

276. Gladders, M. D., Yee, H. K. C., Mar. 2005. The Red-Sequence Cluster Survey. I. The Survey and Cluster Catalogs for Patches RCS 0926+37 and RCS 1327+29. ApJS 157, 1-29.

277. Gladders, M. D., Yee, H. K. C., Majumdar, S., Barrientos, L. F., Hoekstra, H., Hall, P. B., Infante, L., Jan. 2007. Cosmological Constraints from the Red-Sequence Cluster Survey. ApJ 655, 128-134.

278. Glazebrook, K., Baldry, I., Moos, W., Kruk, J., McCandliss, S., Nov. 2005. Monster redshift surveys through dispersive slitless imaging: The Baryon Oscillation Probe. NewAR 49, 374-378.

279. Glazebrook, K., Blake, C., Sep. 2005. Measuring the Cosmic Evolution of Dark Energy with Baryonic Oscillations in the Galaxy Power Spectrum. ApJ 631, 1-20.

280. Goldberg, D. M., Bacon, D. J., 2005. Galaxy-Galaxy Flexion: Weak Lensing to Second Order. ApJ 619, 741-748.

281. Goldberg, D. M., Strauss, M. A., Mar. 1998. Determination of the Baryon Density from Large-Scale Galaxy Redshift Surveys. ApJ 495, 29-+.

282. Gonzalez, A. H., Zaritsky, D., Dalcanton, J. J., Nelson, A., Nov. 2001. The Las Campanas Distant Cluster Survey: The Catalog. ApJS 137, 117-138.

283. Gott, J. R., Slepian, Z., Sep. 2011. Dark energy as double N-flation - observational predictions. MNRAS 416, 907-916.

284. Gott, III, J. R., Jan. 1982. Creation of open universes from de Sitter space. Nature 295, 304-306.

285. Gott, III, J. R., Schramm, D. N., Tinsley, B. M., Gunn, J. E., Dec. 1974. An unbound universe. ApJ 194, 543-553.

286. Green, J., Schechter, P., Baltay, C., Bean, R., Bennett, D., Brown, R., et al. , Aug. 2012. Wide-Field InfraRed Survey Telescope (WFIRST): Final Report of Science Definition Team. arXiv:1208.4012.

287. Green, S. R., Wald, R. M., Apr. 2011. New framework for analyzing the effects of small scale inhomogeneities in cosmology. Phys. Rev. D83 (8), 084020.

288. Greenhill, L., Humphreys, E., Hu, W., Macri, L., Murphy, D., Masters, K., Hagiwara, Y., Kobayashi, H., Murata, Y., 2009. Estimation of the Hubble Constant and Constraint on Descriptions of Dark Energy. Astro2010 White Paper, arXiv:0902.4255.

289. Griest, K., 2002. Toward a possible solution to the cosmic coincidence problem. Phys. Rev. D66, 123501.

290. Gross, M. A. K., Somerville, R. S., Primack, J. R., Holtzman, J., Klypin, A., Nov. 1998. Cold dark matter variant cosmological models - I. Simulations and preliminary comparisons. MNRAS 301, 81-94.

291. Grossi, M., Verde, L., Carbone, C., Dolag, K., Branchini, E., Iannuzzi, F., Matarrese, S., Moscardini, L., Sep. 2009. Large-scale non-Gaussian mass function and halo bias: tests on N-body simulations. MNRAS 398, 321-332.

292. Guenther, D. B., Krauss, L. M., Demarque, P., May 1998. Testing the Constancy of the Gravitational Constant Using Helioseismology. ApJ 498, 871-+.

293. Gull, S. F., Northover, K. J. E., Oct. 1976. Detection of hot gas in clusters of galaxies by observation of the microwave background radiation. Nature 263, 572-+.

294. Gunn, J. E., Dec. 1967. On the Propagation of Light in Inhomogeneous Cosmologies. I. Mean Effects. ApJ 150, 737.

295. Gunn, J. E., Gott, III, J. R., 1972. On the infall of matter into cluster of galaxies and some effects on their evolution. ApJ 176, 1-19.

296. Gunn, J. E., Peterson, B. A., 1965. On the Density of Neutral Hydrogen in Intergalactic Space. ApJ 142, 1633.

297. Guth, A. H., 1981. The Inflationary Universe: A Possible Solution to the Horizon and Flatness Problems. Phys. Rev. D23, 347-356.

298. Guth, A. H., Nomura, Y., Jul. 2012. What can the observation of nonzero curvature tell us? Phys. Rev. D86 (2), 023534.

299. Guy, J., Astier, P., Baumont, S., Hardin, D., Pain, R., Regnault, N., et al. , Apr. 2007. SALT2: using distant supernovae to improve the use of type Ia supernovae as distance indicators. A&A 466, 11-21.

300. Guy, J., Astier, P., Nobili, S., Regnault, N., Pain, R., Dec. 2005. SALT: a spectral adaptive light curve template for type Ia supernovae. A&A 443, 781-791.

301. Guzik, J., Bernstein, G., Smith, R. E., Mar. 2007. Systematic effects in the sound horizon scale measurements. MNRAS 375, 1329-1337.

302. Guzzo, L., Pierleoni, M., Meneux, B., Branchini, E., Le Fhvre, O., Marinoni, C., et al. , Jan. 2008. A test of the nature of cosmic acceleration using galaxy redshift distortions. Nature 451, 541-544.

303. Hamana, T., Miyazaki, S., Shimasaku, K., Furusawa, H., Doi, M., Hamabe, M., et al. , Nov. 2003. Cosmic Shear Statistics in the Suprime-Cam 2.1 Square Degree Field: Constraints on Ω_m and σ₈. ApJ 597, 98-110.

304. Hamaus, N., Seljak, U., Desjacques, V., Nov. 2012. Optimal weighting in galaxy surveys: Application to redshift-space distortions. Phys. Rev. D86 (10), 103513.

305. Hamilton, A. J. S., 1998. Linear Redshift Distortions: A Review. In: D. Hamilton (Ed.), The Evolving Universe. Vol. 231 of Astrophysics and Space Science Library. p. 185.

306. Hamuy, M., Folatelli, G., Morrell, N. I., Phillips, M. M., Suntzeff, N. B., Persson, S. E., et al. , Jan. 2006. The Carnegie Supernova Project: The Low-Redshift Survey. PASP 118, 2-20.

307. Hamuy, M., Phillips, M. M., Suntzeff, N. B., Schommer, R. A., Maza, J., Aviles, R., Dec. 1996. The Absolute Luminosities of the Calan/Tololo Type IA Supernovae. AJ 112, 2391.

308. Hamuy, M., Pinto, P. A., 2002. Type II Supernovae as Standardized Candles. ApJ 566, L63-L65.

309. Hanany, S., Ade, P., Balbi, A., Bock, J., Borrill, J., Boscaleri, A., et al. , Dec. 2000. MAXIMA-1: A Measurement of the Cosmic Microwave Background Anisotropy on Angular Scales of 10'-5°. ApJ Lett 545, L5-L9.

310. Hao, J., McKay, T. A., Koester, B. P., Rykoff, E. S., Rozo, E., et al. , Dec. 2010. A GMBCG Galaxy Cluster Catalog of 55,424 Rich Clusters from SDSS DR7. ApJS 191, 254-274.

311. Harker, G., Cole, S., Helly, J., Frenk, C., Jenkins, A., Apr. 2006. A marked correlation function analysis of halo formation times in the Millennium Simulation. MNRAS 367, 1039-1049.

312. Hartlap, J., Hilbert, S., Schneider, P., Hildebrandt, H., Apr. 2011. A bias in cosmic shear from galaxy selection: results from ray-tracing simulations. A&A 528, A51+.

313. Hatton, S. J., Cole, S., 1998. Modelling the redshift-space distortion of galaxy clustering. MNRAS 296, 10-20.

314. Haverkorn, M., Katgert, P., de Bruyn, A. G., Jun. 2003. Multi-frequency polarimetry of the Galactic radio background around 350 MHz. I. A region in Auriga around l = 161 deg, b = 16 deg. A&A 403, 1031-1044.

315. Hawkins, E., Maddox, S., Cole, S., Lahav, O., Madgwick, D. S., Norberg, P., et al. , Nov. 2003. The 2dF Galaxy Redshift Survey: correlation functions, peculiar velocities and the matter density of the Universe. MNRAS 346, 78-96.

316. Hayashi, E., White, S. D. M., Jul. 2008. Understanding the halo-mass and galaxy-mass cross-correlation functions. MNRAS 388, 2-14.

317. Hayden, B. T., Gupta, R. R., Garnavich, P. M., Mannucci, F., Nichol, R. C., Sako, M., Dec. 2012. The Fundamental Metallicity Relation Reduces Type Ia SN Hubble Residuals More Than Host Mass Alone. arXiv:1212.4848.

318. Heisler, J., Tremaine, S., Bahcall, J. N., Nov. 1985. Estimating the masses of galaxy groups - Alternatives to the virial theorem. ApJ 298, 8-17.

319. Heitmann, K., Higdon, D., White, M., Habib, S., Williams, B. J., Lawrence, E., Wagner, C., Nov. 2009. The Coyote Universe. II. Cosmological Models and Precision Emulation of the Nonlinear Matter Power Spectrum. ApJ 705, 156-174.

320. Heitmann, K., White, M., Wagner, C., Habib, S., Higdon, D., 2010. The Coyote Universe I: Precision Determination of the Nonlinear Matter Power Spectrum. ApJ 715, 104-121.

321. Henry, J. P., Nov. 1997. A Measurement of the Density Parameter Derived from the Evolution of Cluster X-Ray Temperatures. ApJ Lett 489, L1+.

322. Henry, J. P., May 2000. Measuring Cosmological Parameters from the Evolution of Cluster X-Ray Temperatures. ApJ 534, 565-580.

323. Henry, J. P., Evrard, A. E., Hoekstra, H., Babul, A., Mahdavi, A., Feb. 2009. The X-Ray Cluster Normalization of the Matter Power Spectrum. ApJ 691, 1307-1321.

324. Herrnstein, J. R., Moran, J. M., Greenhill, L. J., Diamond, P. J., Inoue, M., Nakai, N., Miyoshi, M., Henkel, C., Riess, A., Aug. 1999. A geometric distance to the galaxy NGC4258 from orbital motions in a nuclear gas disk. Nature 400, 539-541.

325. Hetterscheidt, M., Simon, P., Schirmer, M., Hildebrandt, H., Schrabback, T., Erben, T., Schneider, P., Jun. 2007. GaBoDS: The Garching-Bonn deep survey. VII. Cosmic shear analysis. A&A 468, 859-876.

326. Heymans, C., Brown, M., Heavens, A., Meisenheimer, K., Taylor, A., Wolf, C., Jan. 2004. Weak lensing with COMBO-17: estimation and removal of intrinsic alignments. MNRAS 347, 895-908.

327. Heymans, C., Brown, M. L., Barden, M., Caldwell, J. A. R., Jahnke, K., Peng, C. Y., et al. , Jul. 2005. Cosmological weak lensing with the HST GEMS survey. MNRAS 361, 160-176.

328. Heymans, C., Rowe, B., Hoekstra, H., Miller, L., Erben, T., Kitching, T., van Waerbeke, L., Mar. 2012a. The impact of high spatial frequency atmospheric distortions on weak-lensing measurements. MNRAS 421, 381-389.

329. Heymans, C., Van Waerbeke, L., Bacon, D., Berge, J., Bernstein, G., Bertin, E., et al. , May 2006. The Shear Testing Programme - I. Weak lensing analysis of simulated ground-based observations. MNRAS 368, 1323-1339.

330. Heymans, C., Van Waerbeke, L., Miller, L., Erben, T., Hildebrandt, H., Hoekstra, H., et al. , Nov. 2012b. CFHTLenS: the Canada-France-Hawaii Telescope Lensing Survey. MNRAS 427, 146-166.

331. Hicken, M., Challis, P., Jha, S., Kirshner, R. P., Matheson, T., Modjaz, M., et al. , Jul. 2009a. CfA3: 185 Type Ia Supernova Light Curves from the CfA. ApJ 700, 331-357.

332. Hicken, M., Wood-Vasey, W. M., Blondin, S., Challis, P., Jha, S., Kelly, P. L., Rest, A., Kirshner, R. P., Aug. 2009b. Improved Dark Energy Constraints from ~100 New CfA Supernova Type Ia Light Curves. ApJ 700, 1097-1140.

333. High, F. W., Hoekstra, H., Leethochawalit, N., de Haan, T., Abramson, L., Aird, K. A., et al. , Oct. 2012. Weak-lensing Mass Measurements of Five Galaxy Clusters in the South Pole Telescope Survey Using Magellan/Megacam. ApJ 758, 68.

334. Hikage, C., Takada, M., Spergel, D. N., Nov. 2011. Using galaxy-galaxy weak lensing measurements to correct the finger of God. MNRAS 412, 65.

335. Hill, G. J., MacQueen, P. J., Palunas, P., Kelz, A., Roth, M. M., Gebhardt, K., Grupp, F., Jun. 2006. VIRUS: A hugely replicated integral field spectrograph for HETDEX. NewAR 50, 378-381.

336. Hirata, C. M., Oct. 2009. Tidal alignments as a contaminant of redshift space distortions. MNRAS 399, 1074-1087.

337. Hirata, C. M., Ho, S., Padmanabhan, N., Seljak, U., Bahcall, N. A., 2008. Correlation of CMB with large-scale structure: II. Weak lensing. Phys. Rev. D78, 043520.

338. Hirata, C. M., Holz, D. E., Cutler, C., 2010. Reducing the weak lensing noise for the gravitational wave Hubble diagram using the non-Gaussianity of the magnification distribution. Phys. Rev. D81, 124046.

339. Hirata, C. M., Mandelbaum, R., Ishak, M., Seljak, U., Nichol, R., Pimbblet, K. A., Ross, N. P., Wake, D., Nov. 2007. Intrinsic galaxy alignments from the 2SLAQ and SDSS surveys: luminosity and redshift scalings and implications for weak lensing surveys. MNRAS 381, 1197-1218.

340. Hirata, C. M., Mandelbaum, R., Seljak, U., Guzik, J., Padmanabhan, N., Blake, C., et al. , Sep. 2004. Galaxy-galaxy weak lensing in the Sloan Digital Sky Survey: intrinsic alignments and shear calibration errors. MNRAS 353, 529-549.

341. Hirata, C. M., Padmanabhan, N., Seljak, U., Schlegel, D., Brinkmann, J., 2004. Cross-correlation of CMB with large-scale structure: weak gravitational lensing. Phys. Rev. D70, 103501.

342. Hirata, C. M., Seljak, U., 2003a. Analyzing weak lensing of the cosmic microwave background using the likelihood function. Phys. Rev. D67, 043001.

343. Hirata, C. M., Seljak, U., 2003b. Shear calibration biases in weak lensing surveys. MNRAS 343, 459-480.

344. Hirata, C. M., Seljak, U., 2004. Intrinsic alignment-lensing interference as a contaminant of cosmic shear. Phys. Rev. D70, 063526.

345. Hirata, C. M., Seljak, U., Oct. 2005. Can superhorizon cosmological perturbations explain the acceleration of the universe? Phys. Rev. D72 (8), 083501.

346. Ho, S., Hirata, C., Padmanabhan, N., Seljak, U., Bahcall, N., Aug. 2008. Correlation of CMB with large-scale structure. I. Integrated Sachs-Wolfe tomography and cosmological implications. Phys. Rev. D78 (4), 043519.

347. Hoeflich, P., Khokhlov, A., Wheeler, J. C., Phillips, M. M., Suntzeff, N. B., Hamuy, M., Dec. 1996. Maximum Brightness and Postmaximum Decline of Light Curves of Type IA Supernovae: A Comparison of Theory and Observations. ApJ Lett 472, L81.

348. Hoekstra, H., Franx, M., Kuijken, K., Carlberg, R. G., Yee, H. K. C., Apr. 2003. Lensing by galaxies in CNOC2 fields. MNRAS 340, 609-622.

349. Hoekstra, H., Franx, M., Kuijken, K., Squires, G., Sep. 1998. Weak Lensing Analysis of CL 1358+62 Using Hubble Space Telescope Observations. ApJ 504, 636-+.

350. Hoekstra, H., Hsieh, B. C., Yee, H. K. C., Lin, H., Gladders, M. D., 2005. Virial masses and the baryon fraction in galaxies. ApJ 635, 73-85.

351. Hoekstra, H., Mahdavi, A., Babul, A., Bildfell, C., Dec. 2012. The Canadian Cluster Comparison Project: weak lensing masses and SZ scaling relations. MNRAS 427, 1298-1311.

352. Hoekstra, H., Mellier, Y., van Waerbeke, L., Semboloni, E., Fu, L., Hudson, M. J., Parker, L. C., Tereno, I., Benabed, K., Aug. 2006. First Cosmic Shear Results from the Canada-France-Hawaii Telescope Wide Synoptic Legacy Survey. ApJ 647, 116-127.

353. Hoekstra, H., Yee, H. K. C., Gladders, M. D., 2002. Constraints on Omega_m and sigma₈ from weak lensing in RCS fields. ApJ 577, 595-603.

354. Hoekstra, H., Yee, H. K. C., Gladders, M. D., 2004. Properties of galaxy dark matter halos from weak lensing. ApJ 606, 67-77.

355. Hogg, D. W., 1999. Distance measures in cosmology. arXiv:astro-ph/9905116.

356. Holder, G., Feb. 2006. Likelihood Functions for Galaxy Cluster Surveys. arXiv:astro-ph/0602251.

357. Holder, G. P., Haiman, Z., Kaplinghat, M., Knox, L., Sep. 2003. The Reionization History at High Redshifts. II. Estimating the Optical Depth to Thomson Scattering from Cosmic Microwave Background Polarization. ApJ 595, 13-18.

358. Holz, D. E., Linder, E. V., 2005. Safety in numbers: Gravitational Lensing Degradation of the Luminosity Distance-Redshift Relation. ApJ 631, 678-688.

359. Horesh, A., Maoz, D., Hilbert, S., Bartelmann, M., Nov. 2011. Lensed arc statistics: comparison of Millennium simulation galaxy clusters to Hubble Space Telescope observations of an X-ray selected sample. MNRAS 418, 54-63.

360. Hoyle, B., Jimenez, R., Verde, L., May 2011. Implications of multiple high-redshift galaxy clusters. Phys. Rev. D83 (10), 103502.

361. Hu, W., Oct. 1998. Structure Formation with Generalized Dark Matter. ApJ 506, 485-494.

362. Hu, W., Oct. 2001. Angular trispectrum of the cosmic microwave background. Phys. Rev. D64 (8), 083005.

363. Hu, W., 2002a. Dark Energy and Matter Evolution from Lensing Tomography. Phys. Rev. D66, 083515.

364. Hu, W., 2002b. Dark Synergy: Gravitational Lensing and the CMB. Phys. Rev. D65, 023003.

365. Hu, W., 2005. Dark Energy Probes in Light of the CMB. ASP Conf. Ser. 339, 215.

366. Hu, W., Cohn, J. D., 2006. Likelihood methods for cluster dark energy surveys. Phys. Rev. D73, 067301.

367. Hu, W., Haiman, Z., Sep. 2003. Redshifting rings of power. Phys. Rev. D68 (6), 063004.

368. Hu, W., Jain, B., 2004. Joint Galaxy-Lensing Observables and the Dark Energy. Phys. Rev. D70, 043009.

369. Hu, W., Kravtsov, A. V., 2003. Sample Variance Considerations for Cluster Surveys. ApJ 584, 702-715.

370. Hu, W., Sugiyama, N., Nov. 1996. Small-Scale Cosmological Perturbations: an Analytic Approach. ApJ 471, 542-+.

371. Hu, W., Sugiyama, N., Silk, J., Mar. 1997. The physics of microwave background anisotropies. Nature 386, 37-43.

372. Hu, W., White, M., Nov. 1996. Acoustic Signatures in the Cosmic Microwave Background. ApJ 471, 30-+.

373. Hubble, E., 1929. A relation between distance and radial velocity among extra-galactic nebulae. Proc. Nat. Acad. Sci. 15, 168-173.

374. Hudson, M. J., Gwyn, S. D. J., Dahle, H., Kaiser, N., 1998. Galaxy-Galaxy Lensing in the Hubble Deep Field: The Halo Tully-Fisher Relation at Intermediate Redshift. ApJ 503, 531.

375. Huff, E., Schulz, A. E., White, M., Schlegel, D. J., Warren, M. S., Jan. 2007. Simulations of baryon oscillations. Astroparticle Physics 26, 351-366.

376. Huff, E. M., Eifler, T., Hirata, C. M., Mandelbaum, R., Schlegel, D., Seljak, U., Dec. 2011. Seeing in the dark - II. Cosmic shear in the Sloan Digital Sky Survey. arXiv:1112.3143.

377. Huff, E. M., Graves, G. J., 2011. Magnificent Magnification: Exploiting the Other Half of the Lensing Signal. arXiv:1111.1070.

378. Hui, L., Jul. 1999. Weighing the Cosmological Energy Contents with Weak Gravitational Lensing. ApJ Lett 519, L9-L12.

379. Hui, L., Gnedin, N. Y., 1997. Equation of state of the photoionized intergalactic medium. MNRAS 292, 27.

380. Hui, L., Nicolis, A., Stubbs, C., 2009. Equivalence Principle Implications of Modified Gravity Models. Phys. Rev. D80, 104002.

381. Hui, L., Stebbins, A., Burles, S., 1999. A Geometrical Test of the Cosmological Energy Contents Using the Lyman-alpha Forest. ApJ 511, L5-9.

382. Hui, L., Zhang, J., Dec. 2008. Density-Ellipticity Correlations, Galaxy-Galaxy Lensing, and the Importance of Non-Gaussianity in Intrinsic Alignment. ApJ 688, 742-756.

383. Humphreys, E. M. L., Reid, M. J., Greenhill, L. J., Moran, J. M., Argon, A. L., Jan. 2008. Toward a New Geometric Distance to the Active Galaxy NGC 4258. II. Centripetal Accelerations and Investigation of Spiral Structure. ApJ 672, 800-816.

384. Humphreys, E. M. L., Reid, M. J., Moran, J. M., Greenhill, L. J., Argon, A. L., 2013. Toward a New Geometric Distance to NGC 4258. III. Final Results and the Hubble Constant. ApJ, in press.

385. Huterer, D., Cooray, A., 2005. Uncorrelated Estimates of Dark Energy Evolution. Phys. Rev. D71, 023506.

386. Huterer, D., Starkman, G., 2003. Parameterization of dark-energy properties: A principal- component approach. Phys. Rev. Lett. 90, 031301.

387. Huterer, D., Turner, M. S., Oct. 1999. Prospects for probing the dark energy via supernova distance measurements. Phys. Rev. D60 (8), 081301.

388. Huterer, D., Turner, M. S., Dec. 2001. Probing dark energy: Methods and strategies. Phys. Rev. D64 (12), 123527.

389. Hütsi, G., Apr. 2006. Acoustic oscillations in the SDSS DR4 luminous red galaxy sample power spectrum. A&A 449, 891-902.

390. Hütsi, G., Feb. 2010. Power spectrum of the maxBCG sample: detection of acoustic oscillations using galaxy clusters. MNRAS 401, 2477-2489.

391. Hütsi, G., Lahav, O., Dec. 2008. The cluster-galaxy cross spectrum. An additional probe of cosmological and halo parameters. A&A 492, 355-365.

392. Iliev, I. T., Shapiro, P. R., McDonald, P., Mellema, G., Pen, U.-L., Nov. 2008. The effect of the intergalactic environment on the observability of Lyα emitters during reionization. MNRAS 391, 63-83.

393. Jain, B., Dec. 2011. Designing surveys for tests of gravity. Royal Society of London Philosophical Transactions Series A 369, 5081-5089.

394. Jain, B., Khoury, J., 2010. Cosmological Tests of Gravity. Annals Phys. 325, 1479-1516.

395. Jain, B., Taylor, A., 2003. Cross-correlation Tomography: Measuring Dark Energy Evolution with Weak Lensing. Phys. Rev. Lett. 91, 141302.

396. Jain, B., VanderPlas, J., 2011. Tests of Modified Gravity with Dwarf Galaxies. JCAP 1110, 032.

397. Jain, B., Zhang, P., Sep. 2008. Observational tests of modified gravity. Phys. Rev. D78 (6), 063503.

398. Jarosik, N., Bennett, C. L., Dunkley, J., Gold, B., Greason, M. R., et al. , Feb. 2011. Seven-year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Sky Maps, Systematic Errors, and Basic Results. ApJS 192, 14-+.

399. Jarvis, M., Bernstein, G. M., Fischer, P., Smith, D., Jain, B., Tyson, J. A., Wittman, D., Mar. 2003. Weak-Lensing Results from the 75 Square Degree Cerro Tololo Inter-American Observatory Survey. AJ 125, 1014-1032.

400. Jarvis, M., Jain, B., 2004. Principal Component Analysis of PSF Variation in Weak Lensing Surveys. arXiv:astro-ph/0412234.

401. Jarvis, M., Jain, B., Jan. 2008. On combining lensing shear information from multiple filters. JCAP 1, 3.

402. Jee, M. J., Blakeslee, J. P., Sirianni, M., Martel, A. R., White, R. L., Ford, H. C., Dec. 2007. Principal Component Analysis of the Time- and Position-dependent Point-Spread Function of the Advanced Camera for Surveys. PASP 119, 1403-1419.

403. Jee, M. J., Tyson, J. A., Schneider, M. D., Wittman, D., Schmidt, S., Hilbert, S., Mar. 2013. Cosmic Shear Results from the Deep Lens Survey. I. Joint Constraints on Ω_m and σ₈ with a Two-dimensional Analysis. ApJ 765, 74.

404. Jenkins, A., Frenk, C. S., Pearce, F. R., Thomas, P. A., Colberg, J. M., White, S. D. M., Couchman, H. M. P., Peacock, J. A., Efstathiou, G., Nelson, A. H., May 1998. Evolution of Structure in Cold Dark Matter Universes. ApJ 499, 20-+.

405. Jennings, E., Nov. 2012. An improved model for the non-linear velocity power spectrum. MNRAS 427, L25-L29.

406. Jennings, E., Baugh, C. M., Li, B., Zhao, G.-B., Koyama, K., Sep. 2012a. Redshift-space distortions in f(R) gravity. MNRAS 425, 2128-2143.

407. Jennings, E., Baugh, C. M., Pascoli, S., Jan. 2011. Modelling redshift space distortions in hierarchical cosmologies. MNRAS 410, 2081-2094.

408. Jennings, E., Baugh, C. M., Pascoli, S., Feb. 2012b. Testing dark energy using pairs of galaxies in redshift space. MNRAS 420, 1079-1091.

409. Jeong, D., Komatsu, E., Nov. 2006. Perturbation Theory Reloaded: Analytical Calculation of Nonlinearity in Baryonic Oscillations in the Real-Space Matter Power Spectrum. ApJ 651, 619-626.

410. Jha, S., Riess, A. G., Kirshner, R. P., 2007. Improved Distances to Type Ia Supernovae with Multicolor Light Curve Shapes: MLCS2k2. ApJ 659, 122-148.

411. Jimenez, R., Loeb, A., 2002. Constraining Cosmological Parameters Based on Relative Galaxy Ages. ApJ 573, 37-42.

412. Jimenez, R., Verde, L., Treu, T., Stern, D., Aug. 2003. Constraints on the Equation of State of Dark Energy and the Hubble Constant from Stellar Ages and the Cosmic Microwave Background. ApJ 593, 622-629.

413. Joachimi, B., Bridle, S. L., Nov. 2010. Simultaneous measurement of cosmology and intrinsic alignments using joint cosmic shear and galaxy number density correlations. A&A 523, A1.

414. Joachimi, B., Mandelbaum, R., Abdalla, F. B., Bridle, S. L., Mar. 2011. Constraints on intrinsic alignment contamination of weak lensing surveys using the MegaZ-LRG sample. A&A 527, A26.

415. Joachimi, B., Schneider, P., Sep. 2008. The removal of shear-ellipticity correlations from the cosmic shear signal via nulling techniques. A&A 488, 829-843.

416. Joachimi, B., Schneider, P., Nov. 2009. The removal of shear-ellipticity correlations from the cosmic shear signal. Influence of photometric redshift errors on the nulling technique. A&A 507, 105-129.

417. Johnston, D. E., Sheldon, E. S., Wechsler, R. H., Rozo, E., Koester, B. P., Frieman, J. A., McKay, T. A., Evrard, A. E., Becker, M. R., Annis, J., Sep. 2007. Cross-correlation Weak Lensing of SDSS galaxy Clusters II: Cluster Density Profiles and the Mass-Richness Relation. arXiv:0709.1159.

418. Jonsson, J., Dahlen, T., Goobar, A., Mortsell, E., Riess, A., 2007. Tentative detection of the gravitational magnification of type Ia supernovae. JCAP 0706, 002.

419. Jouvel, S., Kneib, J.-P., Ilbert, O., Bernstein, G., Arnouts, S., Dahlen, T., et al. , Sep. 2009. Designing future dark energy space missions. I. Building realistic galaxy spectro-photometric catalogs and their first applications. A&A 504, 359-371.

420. Jullo, E., Natarajan, P., Kneib, J.-P., D'Aloisio, A., Limousin, M., Richard, J., Schimd, C., Aug. 2010. Cosmological Constraints from Strong Gravitational Lensing in Clusters of Galaxies. Science 329, 924-927.

421. Jungman, G., Kamionkowski, M., Kosowsky, A., Spergel, D. N., Feb. 1996. Weighing the Universe with the Cosmic Microwave Background. Phys. Rev. Lett. 76, 1007-1010.

422. Kaiser, M. E., Kruk, J. W., McCandliss, S. R., Sahnow, D. J., Barkhouser, R. H., Van Dixon, W., et al. , Jan. 2010. ACCESS: Enabling an Improved Flux Scale for Astrophysics. arXiv:1001.3925.

423. Kaiser, N., 1984. On the Spatial correlations of Abell clusters. ApJ 284, L9-L12.

424. Kaiser, N., Apr. 1986a. A sparse-sampling strategy for the estimation of large-scale clustering from redshift surveys. MNRAS 219, 785-790.

425. Kaiser, N., Sep. 1986b. Evolution and clustering of rich clusters. MNRAS 222, 323-345.

426. Kaiser, N., 1987. Clustering in real space and in redshift space. MNRAS 227, 1-27.

427. Kaiser, N., Dec. 1991. Evolution of clusters of galaxies. ApJ 383, 104-111.

428. Kaiser, N., Apr. 1992. Weak gravitational lensing of distant galaxies. ApJ 388, 272-286.

429. Kaiser, N., Jul. 2000. A New Shear Estimator for Weak-Lensing Observations. ApJ 537, 555-577.

430. Kaiser, N., Squires, G., Broadhurst, T. J., 1995. A Method for weak lensing observations. ApJ 449, 460-475.

431. Kamionkowski, M., Kosowsky, A., Stebbins, A., Jun. 1997. Statistics of cosmic microwave background polarization. Phys. Rev. D55, 7368-7388.

432. Kamionkowski, M., Spergel, D. N., Sugiyama, N., May 1994. Small-scale cosmic microwave background anisotropies as probe of the geometry of the universe. ApJ Lett 426, L57+.

433. Kasen, D., 2006. Secondary Maximum in the Near-Infrared Lightcurves of Type Ia Supernovae. ApJ 649, 939-953.

434. Kasen, D., Woosley, S. E., 2007. On the Origin of the Type Ia Supernova Width-Luminosity Relation. ApJ 656, 661-665.

435. Katz, N., Weinberg, D. H., Hernquist, L., 1996. Cosmological Simulations with TreeSPH. ApJS 105, 19.

436. Kawamura, S., Ando, M., Nakamura, T., Tsubono, K., Tanaka, T., Funaki, I., et al. , Jul. 2008. The Japanese space gravitational wave antenna - DECIGO. Journal of Physics Conference Series 122 (1), 012006.

437. Kazin, E. A., Blanton, M. R., Scoccimarro, R., McBride, C. K., Berlind, A. A., Aug. 2010a. Regarding the Line-of-sight Baryonic Acoustic Feature in the Sloan Digital Sky Survey and Baryon Oscillation Spectroscopic Survey Luminous Red Galaxy Samples. ApJ 719, 1032-1044.

438. Kazin, E. A., Blanton, M. R., Scoccimarro, R., McBride, C. K., Berlind, A. A., Bahcall, N. A., et al. , Feb. 2010b. The Baryonic Acoustic Feature and Large-Scale Clustering in the Sloan Digital Sky Survey Luminous Red Galaxy Sample. ApJ 710, 1444-1461.

439. Kazin, E. A., Sanchez, A. G., Blanton, M. R., Feb. 2012. Improving measurements of H(z) and D_A (z) by analysing clustering anisotropies. MNRAS 419, 3223-3243.

440. Kelly, P. L., Hicken, M., Burke, D. L., Mandel, K. S., Kirshner, R. P., 2010. Hubble Residuals of Nearby Type Ia Supernovae Are Correlated with Host Galaxy Masses. ApJ 715, 743-756.

441. Kessler, R., Bassett, B., Belov, P., Bhatnagar, V., Campbell, H., Conley, A., et al. , Dec. 2010. Results from the Supernova Photometric Classification Challenge. PASP 122, 1415-1431.

442. Kessler, R., et al. , 2009. First-year Sloan Digital Sky Survey-II (SDSS-II) Supernova Results: Hubble Diagram and Cosmological Parameters. ApJS 185, 32-84.

443. Kilbinger, M., Fu, L., Heymans, C., Simpson, F., Benjamin, J., Erben, T., et al. , Dec. 2012. CFHTLenS: Combined probe cosmological model comparison using 2D weak gravitational lensing. arXiv:1212.3338.

444. Killedar, M., Borgani, S., Meneghetti, M., Dolag, K., Fabjan, D., Tornatore, L., Nov. 2012. How baryonic processes affect strong lensing properties of simulated galaxy clusters. MNRAS 427, 533-549.

445. Kim, A., Goobar, A., Perlmutter, S., 1996. A Generalized K correction for type Ia supernovae: Comparing R band photometry beyond z = 0.2 with B, V, and R band nearby photometry. PASP 108, 190.

446. Kim, A. G., Miquel, R., 2006. Optimal Extraction of Cosmological Information from Supernova Data in the Presence of Calibration Uncertainties. Astropart. Phys. 24, 451-458.

447. King, L. J., Mead, J. M. G., Oct. 2011. The mass-concentration relationship of virialized haloes and its impact on cosmological observables. MNRAS 416, 2539-2549.

448. Kirk, D., Bridle, S., Schneider, M., Nov. 2010. The impact of intrinsic alignments: cosmological constraints from a joint analysis of cosmic shear and galaxy survey data. MNRAS 408, 1502-1515.

449. Kitching, T., Balan, S., Bernstein, G., Bethge, M., Bridle, S., Courbin, F., et al. , Sep. 2010. Gravitational Lensing Accuracy Testing 2010 (GREAT10) Challenge Handbook. arXiv:1009.0779.

450. Kitching, T. D., Amara, A., Oct. 2009. Fisher matrix decomposition for dark energy prediction. MNRAS 398, 2134-2142.

451. Kitching, T. D., Miller, L., Heymans, C. E., van Waerbeke, L., Heavens, A. F., Oct. 2008. Bayesian galaxy shape measurement for weak lensing surveys - II. Application to simulations. MNRAS 390, 149-167.

452. Kleban, M., Schillo, M., Jun. 2012. Spatial curvature falsifies eternal inflation. JCAP 6, 29.

453. Kleinheinrich, M., Schneider, P., Rix, H.-W., Erben, T., Wolf, C., Schirmer, M., Meisenheimer, K., Borch, A., Dye, S., Kovacs, Z., Wisotzki, L., Aug. 2006. Weak lensing measurements of dark matter halos of galaxies from COMBO-17. A&A 455, 441-451.

454. Kneib, J.-P., Natarajan, P., Nov. 2011. Cluster lenses. A&A Rev 19, 47.

455. Kochanek, C. S., Aug. 1996. Is There a Cosmological Constant? ApJ 466, 638.

456. Kochanek, C. S., White, M., Huchra, J., Macri, L., Jarrett, T. H., Schneider, S. E., Mader, J., Mar. 2003. Clusters of Galaxies in the Local Universe. ApJ 585, 161-181.

457. Koester, B. P., McKay, T. A., Annis, J., Wechsler, R. H., Evrard, A., Bleem, L., et al. , May 2007. A MaxBCG Catalog of 13,823 Galaxy Clusters from the Sloan Digital Sky Survey. ApJS 660, 239-255.

458. Koivisto, T., Mota, D. F., Apr. 2006. Dark energy anisotropic stress and large scale structure formation. Phys. Rev. D73 (8), 083502.

459. Kolb, E. W., Matarrese, S., Notari, A., Riotto, A., Mar. 2005. Primordial inflation explains why the universe is accelerating today. arXiv:hep-th/0503117.

460. Komatsu, E., Dunkley, J., Nolta, M. R., Bennett, C. L., Gold, B., Hinshaw, G., et al. , Feb. 2009. Five-Year Wilkinson Microwave Anisotropy Probe Observations: Cosmological Interpretation. ApJS 180, 330-376.

461. Komatsu, E., Smith, K. M., Dunkley, J., Bennett, C. L., Gold, B., Hinshaw, G., et al. , Feb. 2011. Seven-year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological Interpretation. ApJS 192, 18.

462. Kowalski, M., Rubin, D., Aldering, G., Agostinho, R. J., Amadon, A., Amanullah, R., et al. , Oct. 2008. Improved Cosmological Constraints from New, Old, and Combined Supernova Data Sets. ApJ 686, 749-778.

463. Krause, E., Hirata, C. M., Nov. 2010. Weak lensing power spectra for precision cosmology. Multiple-deflection, reduced shear, and lensing bias corrections. A&A 523, A28.

464. Krauss, L. M., Turner, M. S., 1995. The cosmological constant is back. Gen. Rel. Grav. 27, 1137-1144.

465. Kravtsov, A. V., Berlind, A. A., Wechsler, R. H., Klypin, A. A., Gottlvber, S., Allgood, B., Primack, J. R., Jul. 2004. The Dark Side of the Halo Occupation Distribution. ApJ 609, 35-49.

466. Kravtsov, A. V., Borgani, S., Sep. 2012. Formation of Galaxy Clusters. ARA&A 50, 353-409.

467. Kravtsov, A. V., Vikhlinin, A., Nagai, D., Oct. 2006. A New Robust Low-Scatter X-Ray Mass Indicator for Clusters of Galaxies. ApJ 650, 128-136.

468. Kristian, J., Mar. 1967. On the Cosmological Distortion Effect. ApJ 147, 864.

469. Kristian, J., Sachs, R. K., Feb. 1966. Observations in Cosmology. ApJ 143, 379.

470. Kujat, J., Linn, A. M., Scherrer, R. J., Weinberg, D. H., Jun. 2002. Prospects for Determining the Equation of State of the Dark Energy: What Can Be Learned from Multiple Observables? ApJ 572, 1-14.

471. Kunz, M., Sapone, D., Mar. 2007. Dark Energy versus Modified Gravity. Phys. Rev. Lett. 98 (12), 121301.

472. Lampeitl, H., Smith, M., Nichol, R. C., Bassett, B., Cinabro, D., Dilday, B., et al. , Oct. 2010. The Effect of Host Galaxies on Type Ia Supernovae in the SDSS-II Supernova Survey. ApJ 722, 566-576.

473. Larson, D., Dunkley, J., Hinshaw, G., Komatsu, E., Nolta, M. R., Bennett, C. L., et al. , Feb. 2011. Seven-year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Power Spectra and WMAP-derived Parameters. ApJS 192, 16.

474. Lau, E. T., Kravtsov, A. V., Nagai, D., Nov. 2009. Residual Gas Motions in the Intracluster Medium and Bias in Hydrostatic Measurements of Mass Profiles of Clusters. ApJ 705, 1129-1138.

475. Lauer, T. R., Feb. 1999. Combining Undersampled Dithered Images. PASP 111, 227-237.

476. Laureijs, R., Amiaux, J., Arduini, S., Auguhres, J. ., Brinchmann, J., Cole, R., et al. , Oct. 2011. Euclid Definition Study Report. arXiv:1110.3193.

477. Lavaux, G., Wandelt, B. D., 2010. Precision cosmology with voids: definition, methods, dynamics. MNRAS 403, 1392-1408.

478. Lavaux, G., Wandelt, B. D., Aug. 2012. Precision Cosmography with Stacked Voids. ApJ 754, 109.

479. Lawrence, E., Heitmann, K., White, M., Higdon, D., Wagner, C., Habib, S., Williams, B., Apr. 2010. The Coyote Universe. III. Simulation Suite and Precision Emulator for the Nonlinear Matter Power Spectrum. ApJ 713, 1322-1331.

480. Leauthaud, A., Tinker, J., Behroozi, P. S., Busha, M. T., Wechsler, R. H., Sep. 2011. A Theoretical Framework for Combining Techniques that Probe the Link Between Galaxies and Dark Matter. ApJ 738, 45.

481. Leauthaud, A., Tinker, J., Bundy, K., Behroozi, P. S., Massey, R., Rhodes, J., et al. , Jan. 2012. New Constraints on the Evolution of the Stellar-to-dark Matter Connection: A Combined Analysis of Galaxy-Galaxy Lensing, Clustering, and Stellar Mass Functions from z = 0.2 to z =1. ApJ 744, 159.

482. Leinert, C., Bowyer, S., Haikala, L. K., Hanner, M. S., Hauser, M. G., Levasseur-Regourd, A.-C., et al. , Jan. 1998. The 1997 reference of diffuse night sky brightness. A&AS 127, 1-99.

483. Lemantre, G., 1927. Un Univers homoghne de masse constante et de rayon croissant rendant compte de la vitesse radiale des nibuleuses extra-galactiques. Annales de la Societe Scietifique de Bruxelles 47, 49-59.

484. Leonard, A., Goldberg, D. M., Haaga, J. L., Massey, R., Sep. 2007. Gravitational Shear, Flexion, and Strong Lensing in Abell 1689. ApJ 666, 51-63.

485. Leonard, A., King, L. J., Goldberg, D. M., May 2011. New constraints on the complex mass substructure in Abell 1689 from gravitational flexion. MNRAS 413, 789-804.

486. Levine, R., Gnedin, N. Y., 2006. AGN Outflows and the Matter Power Spectrum. ApJ 649, L57-L60.

487. Lewis, A., Bridle, S., Nov. 2002. Cosmological parameters from CMB and other data: A Monte Carlo approach. Phys. Rev. D66 (10), 103511-+.

488. Lewis, A., Challinor, A., Lasenby, A., 2000. Efficient Computation of CMB anisotropies in closed FRW models. ApJ 538, 473-476.

489. Li, B., Hellwing, W. A., Koyama, K., Zhao, G.-B., Jennings, E., Baugh, C. M., Jan. 2013. The non-linear matter and velocity power spectra in f(R) gravity. MNRAS 428, 743-755.

490. Li, I. H., Yee, H. K. C., Mar. 2008. Finding Galaxy Groups in Photometric-Redshift Space: The Probability Friends-of-Friends Algorithm. AJ 135, 809-822.

491. Li, W., Leaman, J., Chornock, R., Filippenko, A. V., Poznanski, D., Ganeshalingam, M., Wang, X., Modjaz, M., Jha, S., Foley, R. J., Smith, N., Apr. 2011. Nearby supernova rates from the Lick Observatory Supernova Search - II. The observed luminosity functions and fractions of supernovae in a complete sample. MNRAS 412, 1441-1472.

492. Lidz, A., Heitmann, K., Hui, L., Habib, S., Rauch, M., Sargent, W. L. W., Feb. 2006. Tightening Constraints from the Lyα Forest with the Flux Probability Distribution Function. ApJ 638, 27-44.

493. Lightman, A. P., Schechter, P. L., Dec. 1990. The Omega dependence of peculiar velocities induced by spherical density perturbations. ApJS 74, 831-+.

494. Lima, J. A. S., Alcaniz, J. S., Oct. 2000. Constraining the cosmic equation of state from old galaxies at high redshift. MNRAS 317, 893-896.

495. Lima, M., Hu, W., Aug. 2004. Self-calibration of cluster dark energy studies: Counts in cells. Phys. Rev. D70 (4), 043504-+.

496. Lima, M., Hu, W., 2005. Self-Calibration of Cluster Dark Energy Studies: Observable-Mass Distribution. Phys. Rev. D72, 043006.

497. Lima, M., Hu, W., Dec. 2007. Photometric redshift requirements for self-calibration of cluster dark energy studies. Phys. Rev. D76 (12), 123013-+.

498. Limber, D. N., Jan. 1953. The Analysis of Counts of the Extragalactic Nebulae in Terms of a Fluctuating Density Field. ApJ 117, 134.

499. Limber, D. N., May 1954. The Analysis of Counts of the Extragalactic Nebulae in Terms of a Fluctuating Density Field. II. ApJ 119, 655.

500. Lin, H., Dodelson, S., Seo, H.-J., Soares-Santos, M., Annis, J., Hao, J., Johnston, D., Kubo, J. M., Reis, R. R. R., Simet, M., Dec. 2012. The SDSS Co-add: Cosmic Shear Measurement. ApJ 761, 15.

501. Linde, A. D., 1987. Eternally existing self-reproducing inflationary universe. Physica Scripta Volume T 15, 169-175.

502. Linder, E. V., Oct. 2003. Baryon oscillations as a cosmological probe. Phys. Rev. D68 (8), 083504-+.

503. Linder, E. V., 2003a. Exploring the expansion history of the universe. Phys. Rev. Lett. 90, 091301.

504. Linder, E. V., 2003b. Mapping the Dark Energy Equation of State. arXiv:astro-ph/0311403.

505. Linder, E. V., 2005. Cosmic growth history and expansion history. Phys. Rev. D72, 043529.

506. Linder, E. V., 2007. Theory Challenges of the Accelerating Universe. J. Phys. A40, 6697.

507. Linder, E. V., 2010. Frontiers of Dark Energy. arXiv:1009.1411.

508. Linder, E. V., Dec. 2011. Lensing time delays and cosmological complementarity. Phys. Rev. D84 (12), 123529.

509. Linder, E. V., Huterer, D., 2005. How many dark energy parameters? Phys. Rev. D72, 043509.

510. Lippai, Z., Frei, Z., Haiman, Z., Mar. 2008. Prompt Shocks in the Gas Disk around a Recoiling Supermassive Black Hole Binary. ApJ Lett 676, L5-L8.

511. Liske, J., Codex Team, Nov. 2006. The Cosmological Dynamics Experiment. In: ESA Special Publication. Vol. 637.

512. Liske, J., Grazian, A., Vanzella, E., Dessauges, M., Viel, M., Pasquini, L., et al. , May 2008. Cosmic dynamics in the era of Extremely Large Telescopes. MNRAS 386, 1192-1218.

513. Little, B., Weinberg, D. H., Park, C., Nov. 1991. Primordial fluctuations and non-linear structure. MNRAS 253, 295-306.

514. Liu, A., Tegmark, M., Feb. 2012. How well can we measure and understand foregrounds with 21-cm experiments? MNRAS 419, 3491-3504.

515. Livio, M., 1999. The Progenitors of Type Ia Supernovae. arXiv:astro-ph/9903264.

516. Livio, M., Nov. 2011. Lost in translation: Mystery of the missing text solved. Nature 479, 171-173.

517. Lloyd-Davies, E. J., Romer, A. K., Mehrtens, N., Hosmer, M., Davidson, M., Sabirli, K., et al. , Nov. 2011. The XMM Cluster Survey: X-ray analysis methodology. MNRAS 418, 14-53.

518. Loeb, A., 1998. Direct Measurement of Cosmological Parameters from the Cosmic Deceleration of Extragalactic Objects. ApJ 499, L111-L114.

519. Loeb, A., Wyithe, J. S. B., Apr. 2008. Possibility of Precise Measurement of the Cosmological Power Spectrum with a Dedicated Survey of 21cm Emission after Reionization. Phys. Rev. Lett. 100 (16), 161301-+.

520. Lombardi, M., Bertin, G., Feb. 1998. Improving the accuracy of mass reconstructions from weak lensing: local shear measurements. A&A 330, 791-800.

521. LoVerde, M., Smith, K. M., Aug. 2011. The non-Gaussian halo mass function with f_nl, g_nl and τ_nl. JCAP 8, 3.

522. LSST Science Collaboration, Dec. 2009. LSST Science Book, Version 2.0. arXiv:0912.0201.

523. Lue, A., Jan. 2006. The phenomenology of Dvali Gabadadze Porrati cosmologies. Phys Rep. 423, 1-48.

524. Lue, A., Scoccimarro, R., Starkman, G., Feb. 2004. Differentiating between modified gravity and dark energy. Phys. Rev. D69 (4), 044005.

525. Luppino, G. A., Kaiser, N., 1997. Detection of weak lensing by a cluster of galaxies at z = 0.83. ApJ 475, 20.

526. Ma, Z., Bernstein, G., Weinstein, A., Sholl, M., Dec. 2008. Diagnosing Space Telescope Misalignment and Jitter Using Stellar Images. PASP 120, 1307-1317.

527. MacLeod, C. L., Hogan, C. J., 2008. Precision of Hubble constant derived using black hole binary absolute distances and statistical redshift information. Phys. Rev. D77, 043512.

528. Maddox, S. J., Efstathiou, G., Sutherland, W. J., Loveday, J., 1990. Galaxy correlations on large scales. MNRAS 242, 43-49.

529. Maguire, K., Kotak, R., Smartt, S. J., Pastorello, A., Hamuy, M., Bufano, F., Mar. 2010. Type II-P supernovae as standardized candles: improvements using near-infrared data. MNRAS 403, L11-L15.

530. Majerotto, E., Guzzo, L., Samushia, L., Percival, W. J., Wang, Y., de la Torre, S., et al. , Aug. 2012. Probing deviations from general relativity with the Euclid spectroscopic survey. MNRAS 424, 1392-1408.

531. Majumdar, S., Mohr, J. J., Sep. 2004. Self-Calibration in Cluster Studies of Dark Energy: Combining the Cluster Redshift Distribution, the Power Spectrum, and Mass Measurements. ApJ 613, 41-50.

532. Mandel, K. S., Narayan, G., Kirshner, R. P., Apr. 2011. Type Ia Supernova Light Curve Inference: Hierarchical Models in the Optical and Near-infrared. ApJ 731, 120.

533. Mandel, K. S., Wood-Vasey, W. M., Friedman, A. S., Kirshner, R. P., Oct. 2009. Type Ia Supernova Light-Curve Inference: Hierarchical Bayesian Analysis in the Near-Infrared. ApJ 704, 629-651.

534. Mandelbaum, R., Blake, C., Bridle, S., Abdalla, F. B., Brough, S., Colless, M., et al. , Jan. 2011. The WiggleZ Dark Energy Survey: direct constraints on blue galaxy intrinsic alignments at intermediate redshifts. MNRAS 410, 844-859.

535. Mandelbaum, R., Hirata, C. M., Ishak, M., Seljak, U., Brinkmann, J., 2006. Detection of large scale intrinsic ellipticity-density correlation from the Sloan Digital Sky Survey and implications for weak lensing surveys. MNRAS 367, 611-626.

536. Mandelbaum, R., Hirata, C. M., Leauthaud, A., Massey, R. J., Rhodes, J., Feb. 2012. Precision simulation of ground-based lensing data using observations from space. MNRAS 420, 1518-1540.

537. Mandelbaum, R., Hirata, C. M., Seljak, U., Guzik, J., Padmanabhan, N., Blake, C., Blanton, M. R., Lupton, R., Brinkmann, J., Aug. 2005. Systematic errors in weak lensing: application to SDSS galaxy-galaxy weak lensing. MNRAS 361, 1287-1322.

538. Mandelbaum, R., McDonald, P., Seljak, U., Cen, R., Sep. 2003. Precision cosmology from the Lyman α forest: power spectrum and bispectrum. MNRAS 344, 776-788.

539. Mandelbaum, R., Seljak, U., Baldauf, T., Smith, R. E., Jul. 2010. Precision cluster mass determination from weak lensing. MNRAS 405, 2078-2102.

540. Mandelbaum, R., Seljak, U., Hirata, C. M., Aug. 2008. A halo mass-concentration relation from weak lensing. JCAP 8, 6-+.

541. Mangilli, A., Verde, L., Beltran, M., Oct. 2010. Isocurvature modes and Baryon Acoustic Oscillations. JCAP 10, 9-+.

542. Mantz, A., Allen, S. W., Rapetti, D., Ebeling, H., Aug. 2010. The observed growth of massive galaxy clusters - I. Statistical methods and cosmological constraints. MNRAS 406, 1759-1772.

543. Mantz, A., Allen, S. W., Rapetti, D., Ebeling, H., 2010. The Observed Growth of Massive Galaxy Clusters I: Statistical Methods and Cosmological Constraints. MNRAS 406, 1759-1772.

544. Mao, X.-C., Wu, X.-P., Feb. 2008. Signatures of the Baryon Acoustic Oscillations on 21 cm Emission Background. ApJ Lett 673, L107-L110.

545. March, M. C., Trotta, R., Amendola, L., Huterer, D., 2011. Robustness to systematics for future dark energy probes. MNRAS 415, 143-152.

546. March, M. C., Trotta, R., Berkes, P., Starkman, G. D., Vaudrevange, P. M., Dec. 2011. Improved constraints on cosmological parameters from Type Ia supernova data. MNRAS 418, 2308-2329.

547. Marian, L., Smith, R. E., Bernstein, G. M., Jun. 2009. The Cosmology Dependence of Weak Lensing Cluster Counts. ApJ Lett 698, L33-L36.

548. Marinoni, C., Buzzi, A., Nov. 2010. A geometric measure of dark energy with pairs of galaxies. Nature 468, 539-541.

549. Markovic, D., 1993. On the possibility of determining cosmological parameters from measurements of gravitational waves emitted by coalescing, compact binaries. Phys. Rev. D48, 4738-4756.

550. Marriage, T. A., Acquaviva, V., Ade, P. A. R., Aguirre, P., Amiri, M., Appel, J. W., et al. , Aug. 2011. The Atacama Cosmology Telescope: Sunyaev-Zel'dovich-Selected Galaxy Clusters at 148 GHz in the 2008 Survey. ApJ 737, 61.

551. Martel, H., Shapiro, P. R., Weinberg, S., 1998. Likely Values of the Cosmological Constant. ApJ 492, 29.

552. Martin, J., Jul. 2012. Everything you always wanted to know about the cosmological constant problem (but were afraid to ask). Comptes Rendus Physique 13, 566-665.

553. Martmnez, V. J., Arnalte-Mur, P., Saar, E., de la Cruz, P., Pons-Borderma, M. J., Paredes, S., Fernandez-Soto, A., Tempel, E., May 2009. Reliability of the Detection of the Baryon Acoustic Peak. ApJ Lett 696, L93-L97.

554. Massey, R., Heymans, C., Bergi, J., Bernstein, G., Bridle, S., Clowe, D., et al. , Mar. 2007a. The Shear Testing Programme 2: Factors affecting high-precision weak-lensing analyses. MNRAS 376, 13-38.

555. Massey, R., Refregier, A., Bacon, D., Ellis, R., 2005. An Enlarged Cosmic Shear Survey with the William Herschel Telescope. MNRAS 359, 1277-1286.

556. Massey, R., Rhodes, J., Leauthaud, A., Capak, P., Ellis, R., Koekemoer, A., et al. , Sep. 2007b. COSMOS: Three-dimensional Weak Lensing and the Growth of Structure. ApJS 172, 239-253.

557. Massey, R., Rowe, B., Refregier, A., Bacon, D. J., Bergi, J., Sep. 2007c. Weak gravitational shear and flexion with polar shapelets. MNRAS 380, 229-245.

558. Massey, R., Stoughton, C., Leauthaud, A., Rhodes, J., Koekemoer, A., Ellis, R., Shaghoulian, E., Jan. 2010. Pixel-based correction for Charge Transfer Inefficiency in the Hubble Space Telescope Advanced Camera for Surveys. MNRAS 401, 371-384.

559. Matsubara, T., 2004. Correlation Function in Deep Redshift Space as a Cosmological Probe. ApJ 615, 573-585.

560. Matsubara, T., Suto, Y., 1996. Cosmological redshift distortion of correlation functions as a probe of the density parameter and the cosmological constant. ApJ 470, L1-L5.

561. Matsubara, T., Szalay, A. S., Aug. 2001. Constraining the Cosmological Constant from Large-Scale Redshift-Space Clustering. ApJ Lett 556, L67-L70.

562. Matthews, D. J., Newman, J. A., 2010. Reconstructing Redshift Distributions with Cross- Correlations: Tests and an Optimized Recipe. ApJ 721, 456-468.

563. Maturi, M., Mignone, C., 2009. An optimal basis system for cosmology: data analysis and new parameterisation. A&A 508, 45M.

564. McDonald, P., Eisenstein, D. J., Sep. 2007. Dark energy and curvature from a future baryonic acoustic oscillation survey using the Lyman-α forest. Phys. Rev. D76 (6), 063009-+.

565. McDonald, P., Miralda-Escudi, J., Jun. 1999. Measuring the Cosmological Geometry from the Lyman-alpha Forest along Parallel Lines of Sight. ApJ 518, 24-31.

566. McDonald, P., Seljak, U., 2009. How to measure redshift-space distortions without sample variance. JCAP 0910, 007.

567. McDonald, P., Seljak, U., Burles, S., Schlegel, D. J., Weinberg, D. H., Cen, R., et al. , Mar. 2006. The Lyα Forest Power Spectrum from the Sloan Digital Sky Survey. ApJS 163, 80-109.

568. McKay, T. A., Sheldon, E. S., Racusin, J., Fischer, P., Seljak, U., Stebbins, A., et al. , Aug. 2001. Galaxy Mass and Luminosity Scaling Laws Determined by Weak Gravitational Lensing. arXiv:astro-ph/0108013.

569. McQuinn, M., Hernquist, L., Lidz, A., Zaldarriaga, M., 2011. The Signatures of Large-scale Temperature and Intensity Fluctuations in the Lyman-alpha Forest. MNRAS 415, 977-992.

570. McQuinn, M., Hernquist, L., Zaldarriaga, M., Dutta, S., Oct. 2007. Studying reionization with Lyα emitters. MNRAS 381, 75-96.

571. McQuinn, M., White, M., Aug. 2011. On estimating Lyα forest correlations between multiple sightlines. MNRAS 415, 2257-2269.

572. Mehrtens, N., Romer, A. K., Hilton, M., Lloyd-Davies, E. J., Miller, C. J., et al. , Jun. 2012. The XMM Cluster Survey: optical analysis methodology and the first data release. MNRAS 423, 1024-1052.

573. Mehta, K. T., Seo, H.-J., Eckel, J., Eisenstein, D. J., Metchnik, M., Pinto, P., Xu, X., Jun. 2011. Galaxy Bias and Its Effects on the Baryon Acoustic Oscillation Measurements. ApJ 734, 94-+.

574. Meiksin, A., Tittley, E. R., Jun. 2012. The impact of helium reionization on the structure of the intergalactic medium. MNRAS 423, 7-25.

575. Meiksin, A., White, M., Peacock, J. A., Apr. 1999. Baryonic signatures in large-scale structure. MNRAS 304, 851-864.

576. Melchior, P., Viola, M., 2012. Means of confusion: how pixel noise affects shear estimates for weak gravitational lensing. MNRAS 424, 2757-2769.

577. Melnick, G. J., Bromm, V., Fazio, G. G., Gebhardt, K., Jaffe, D. T., Komatsu, E., et al. , Jan. 2009. The Cosmic Inflation Probe (CIP) - Updated. In: American Astronomical Society Meeting Abstracts #213. Vol. 41 of Bulletin of the American Astronomical Society. p. 481.08.

578. Melott, A. L., Pellman, T. F., Shandarin, S. F., Aug. 1994. Optimizing the Zeldovich Approximation. MNRAS 269, 626.

579. Minard, B., Scranton, R., Fukugita, M., Richards, G., Jun. 2010. Measuring the galaxy-mass and galaxy-dust correlations through magnification and reddening. MNRAS 405, 1025-1039.

580. Meneghetti, M., Jain, B., Bartelmann, M., Dolag, K., Oct. 2005. Constraints on dark energy models from galaxy clusters with multiple arcs. MNRAS 362, 1301-1310.

581. Meneghetti, M., Rasia, E., Merten, J., Bellagamba, F., Ettori, S., Mazzotta, P., Dolag, K., Marri, S., May 2010. Weighing simulated galaxy clusters using lensing and X-ray. A&A 514, A93+.

582. Merchan, M., Zandivarez, A., Sep. 2002. Galaxy groups in the 2dF Galaxy Redshift Survey: the catalogue. MNRAS 335, 216-222.

583. Merchan, M. E., Zandivarez, A., Sep. 2005. Galaxy Groups in the Third Data Release of the Sloan Digital Sky Survey. ApJ 630, 759-763.

584. Merloni, A., Predehl, P., Becker, W., Bvhringer, H., Boller, T., Brunner, H., German eROSITA Consortium, Sep. 2012. eROSITA Science Book: Mapping the Structure of the Energetic Universe. arXiv:1209.3114.

585. Mesinger, A., Furlanetto, S. R., Jun. 2008. Lyα emitters during the early stages of reionization. MNRAS 386, 1990-2002.

586. Milkeraitis, M., van Waerbeke, L., Heymans, C., Hildebrandt, H., Dietrich, J. P., Erben, T., Jul. 2010. 3D-Matched-Filter galaxy cluster finder - I. Selection functions and CFHTLS Deep clusters. MNRAS 406, 673-688.

587. Miller, A. D., Caldwell, R., Devlin, M. J., Dorwart, W. B., Herbig, T., Nolta, M. R., Page, L. A., Puchalla, J., Torbet, E., Tran, H. T., Oct. 1999. A Measurement of the Angular Power Spectrum of the Cosmic Microwave Background from L = 100 to 400. ApJ Lett 524, L1-L4.

588. Miller, C. J., Nichol, R. C., Reichart, D., Wechsler, R. H., Evrard, A. E., et al. , Sep. 2005. The C4 Clustering Algorithm: Clusters of Galaxies in the Sloan Digital Sky Survey. AJ 130, 968-1001.

589. Miller, L., Heymans, C., Kitching, T. D., van Waerbeke, L., Erben, T., Hildebrandt, H., et al. , Jan. 2013. Bayesian galaxy shape measurement for weak lensing surveys - III. Application to the Canada-France-Hawaii Telescope Lensing Survey. MNRAS 429, 2858-2880.

590. Miller, L., Kitching, T. D., Heymans, C., Heavens, A. F., van Waerbeke, L., Nov. 2007. Bayesian galaxy shape measurement for weak lensing surveys - I. Methodology and a fast-fitting algorithm. MNRAS 382, 315-324.

591. Milosavljevic, M., Phinney, E. S., 2005. The Afterglow of Massive Black Hole Coalescence. ApJ 622, L93-L96.

592. Miralda-Escudi, J., Oct. 1991. The correlation function of galaxy ellipticities produced by gravitational lensing. ApJ 380, 1-8.

593. Misner, C. W., Thorne, K. S., Wheeler, J. A., 1973. Gravitation. W.H. Freeman and Co. (San Francisco).

594. Miyazaki, S., Komiyama, Y., Nakaya, H., Doi, Y., Furusawa, H., Gillingham, P., Kamata, Y., Takeshi, K., Nariai, K., Jul. 2006. HyperSuprime: project overview. Vol. 6269 of Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series.

595. Mo, H. J., White, S. D. M., 1996. An Analytic model for the spatial clustering of dark matter halos. MNRAS 282, 347.

596. Mohayaee, R., Mathis, H., Colombi, S., Silk, J., Jan. 2006. Reconstruction of primordial density fields. MNRAS 365, 939-959.

597. Monson, A. J., Freedman, W. L., Madore, B. F., Persson, S. E., Scowcroft, V., Seibert, M., Rigby, J. R., Nov. 2012. The Carnegie Hubble Program: The Leavitt Law at 3.6 and 4.5 μm in the Milky Way. ApJ 759, 146.

598. Morales, M. F., 2006. A Technique for Weak Lensing with Velocity Maps: Eliminating Ellipticity Noise in HI Radio Observations. ApJ 650, L21-L24.

599. More, S., Kravtsov, A. V., Dalal, N., Gottlvber, S., Jul. 2011. The Overdensity and Masses of the Friends-of-friends Halos and Universality of Halo Mass Function. ApJS 195, 4.

600. Moresco, M., Cimatti, A., Jimenez, R., Pozzetti, L., Zamorani, G., Bolzonella, M., et al. , Aug. 2012. Improved constraints on the expansion rate of the Universe up to z ~ 1.1 from the spectroscopic evolution of cosmic chronometers. JCAP 8, 6.

601. Moresco, M., Jimenez, R., Cimatti, A., Pozzetti, L., Mar. 2011. Constraining the expansion rate of the Universe using low-redshift ellipticals as cosmic chronometers.JCAP 3, 45.

602. Mortonson, M., Hu, W., Huterer, D., 2009a. Hiding dark energy transitions at low redshift. Phys. Rev. D80, 067301.

603. Mortonson, M. J., Hu, W., Jan. 2008. Model-Independent Constraints on Reionization from Large-Scale Cosmic Microwave Background Polarization. ApJ 672, 737-751.

604. Mortonson, M. J., Hu, W., Huterer, D., 2009b. Falsifying Paradigms for Cosmic Acceleration. Phys. Rev. D79, 023004.

605. Mortonson, M. J., Huterer, D., Hu, W., 2010. Figures of merit for present and future dark energy probes. Phys. Rev. D82, 063004.

606. Mould, J., Blandford, R., Villumsen, J., Brainerd, T., Smail, I., Small, T., Kells, W., Nov. 1994. A search for weak distortion of distant galaxy images by large-scale structure. MNRAS 271, 31-38.

607. Mould, J. R., Huchra, J. P., Freedman, W. L., Kennicutt, Jr., R. C., Ferrarese, L., Ford, H. C., et al. , Feb. 2000. The Hubble Space Telescope Key Project on the Extragalactic Distance Scale. XXVIII. Combining the Constraints on the Hubble Constant. ApJ 529, 786-794.

608. Mullis, C. R., McNamara, B. R., Quintana, H., Vikhlinin, A., Henry, J. P., Gioia, I. M., Hornstrup, A., Forman, W., Jones, C., Sep. 2003. The 160 Square Degree ROSAT Survey: The Revised Catalog of 201 Clusters with Spectroscopic Redshifts. ApJ 594, 154-171.

609. Muzzin, A., Wilson, G., Yee, H. K. C., Hoekstra, H., Gilbank, D., Surace, J., et al. , Jun. 2009. Spectroscopic Confirmation of Two Massive Red-Sequence-Selected Galaxy Clusters at z ~ 1.2 in the SpARCS-North Cluster Survey. ApJ 698, 1934-1942.

610. Nagai, D., Vikhlinin, A., Kravtsov, A. V., Jan. 2007. Testing X-Ray Measurements of Galaxy Clusters with Cosmological Simulations. ApJ 655, 98-108.

611. Nakamura, T., Chiba, T., Jul. 1999. Determining the equation of state of the expanding Universe: inverse problem in cosmology. MNRAS 306, 696-700.

612. Narayanan, V. K., Berlind, A. A., Weinberg, D. H., Jan. 2000. Locally Biased Galaxy Formation and Large-Scale Structure. ApJ 528, 1-20.

613. Narayanan, V. K., Weinberg, D. H., Dec. 1998. Reconstruction Analysis of Galaxy Redshift Surveys: A Hybrid Reconstruction Method. ApJ 508, 440-471.

614. Navarro, J. F., Frenk, C. S., White, S. D. M., May 1996. The Structure of Cold Dark Matter Halos. ApJ 462, 563-+.

615. Netterfield, C. B., Devlin, M. J., Jarosik, N., Page, L., Wollack, E. J., 1997. A Measurement of the Angular Power Spectrum of the Anisotropy in the Cosmic Microwave Background. ApJ 474, 47.

616. Newman, J. A., Sep. 2008. Calibrating Redshift Distributions beyond Spectroscopic Limits with Cross-Correlations. ApJ 684, 88-101.

617. Niemack, M. D., et al. , Jul. 2010. ACTPol: a polarization-sensitive receiver for the Atacama Cosmology Telescope. Vol. 7741 of Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series.

618. Nissanke, S., Holz, D. E., Hughes, S. A., Dalal, N., Sievers, J. L., Dec. 2010. Exploring Short Gamma-ray Bursts as Gravitational-wave Standard Sirens. ApJ 725, 496-514.

619. Nolta, M. R., Wright, E. L., Page, L., Bennett, C. L., Halpern, M., Hinshaw, G., et al. , Jun. 2004. First Year Wilkinson Microwave Anisotropy Probe Observations: Dark Energy Induced Correlation with Radio Sources. ApJ 608, 10-15.

620. Norberg, P., Baugh, C. M., Hawkins, E., Maddox, S., Peacock, J. A., Cole, S., et al. , Nov. 2001. The 2dF Galaxy Redshift Survey: luminosity dependence of galaxy clustering. MNRAS 328, 64-70.

621. Norman, M. L., Paschos, P., Harkness, R., Jul. 2009. Baryon acoustic oscillations in the Lyman alpha forest. Journal of Physics Conference Series 180 (1), 012021-+.

622. Nugent, P., Kim, A., Perlmutter, S., 2002. K-Corrections and Extinction Corrections for Type Ia Supernovae. PASP 114, 803-819.

623. Nusser, A., Dekel, A., Jun. 1992. Tracing large-scale fluctuations back in time. ApJ 391, 443-452.

624. Oguri, M., Hamana, T., Jul. 2011. Detailed cluster lensing profiles at large radii and the impact on cluster weak lensing studies. MNRAS 414, 1851-1861.

625. Oguri, M., Inada, N., Strauss, M. A., Kochanek, C. S., Kayo, I., Shin, M.-S., et al. , May 2012. The Sloan Digital Sky Survey Quasar Lens Search. VI. Constraints on Dark Energy and the Evolution of Massive Galaxies. AJ 143, 120.

626. Oguri, M., Takada, M., Jan. 2011. Combining cluster observables and stacked weak lensing to probe dark energy: Self-calibration of systematic uncertainties. Phys. Rev. D83 (2), 023008-+.

627. Okumura, T., Matsubara, T., Eisenstein, D. J., Kayo, I., Hikage, C., Szalay, A. S., Schneider, D. P., Apr. 2008. Large-Scale Anisotropic Correlation Function of SDSS Luminous Red Galaxies. ApJ 676, 889-898.

628. Okumura, T., Seljak, U., McDonald, P., Desjacques, V., Feb. 2012. Distribution function approach to redshift space distortions. Part II: N-body simulations. JCAP 2, 10.

629. Orban, C., Weinberg, D. H., Sep. 2011. Self-similar bumps and wiggles: Isolating the evolution of the BAO peak with power-law initial conditions. Phys. Rev. D84 (6), 063501-+.

630. Orsi, A., Baugh, C. M., Lacey, C. G., Cimatti, A., Wang, Y., Zamorani, G., Jun. 2010. Probing dark energy with future redshift surveys: a comparison of emission line and broad-band selection in the near-infrared. MNRAS 405, 1006-1024.

631. Ostriker, J. P., Cen, R., Jun. 1996. Hydrodynamic Simulations of the Growth of Cosmological Structure: Summary and Comparisons among Scenarios. ApJ 464, 27.

632. Ostriker, J. P., Steinhardt, P. J., 1995. The Observational case for a low density universe with a nonzero cosmological constant. Nature 377, 600-602.

633. Overduin, J., Everitt, F., Mester, J., Worden, P., 2009. The Science Case for STEP. Adv. Space Res. 43, 1532-1537.

634. Pacaud, F., Pierre, M., Adami, C., Altieri, B., Andreon, S., Chiappetti, L., et al. , Dec. 2007. The XMM-LSS survey: the Class 1 cluster sample over the initial 5 deg² and its cosmological modelling. MNRAS 382, 1289-1308.

635. Padmanabhan, N., Schlegel, D. J., Seljak, U., Makarov, A., Bahcall, N. A., Blanton, M. R., et al. , Jul. 2007. The clustering of luminous red galaxies in the Sloan Digital Sky Survey imaging data. MNRAS 378, 852-872.

636. Padmanabhan, N., White, M., Sep. 2009. Calibrating the baryon oscillation ruler for matter and halos. Phys. Rev. D80 (6), 063508-+.

637. Padmanabhan, N., White, M., Cohn, J. D., Mar. 2009. Reconstructing baryon oscillations: A Lagrangian theory perspective. Phys. Rev. D79 (6), 063523-+.

638. Padmanabhan, N., Xu, X., Eisenstein, D. J., Scalzo, R., Cuesta, A. J., Mehta, K. T., Kazin, E., Dec. 2012. A 2 per cent distance to z = 0.35 by reconstructing baryon acoustic oscillations - I. Methods and application to the Sloan Digital Sky Survey. MNRAS 427, 2132-2145.

639. Paranjape, A., Gordon, C., Hotchkiss, S., Jul. 2011. Extreme tail of the non-Gaussian mass function. Phys. Rev. D84 (2), 023517.

640. Parkinson, D., Blake, C., Kunz, M., Bassett, B. A., Nichol, R. C., Glazebrook, K., May 2007. Optimizing baryon acoustic oscillation surveys - I. Testing the concordance ΛCDM cosmology. MNRAS 377, 185-197.

641. Parkinson, D., Riemer-Sxrensen, S., Blake, C., Poole, G. B., Davis, T. M., Brough, S., et al. , Nov. 2012. The WiggleZ Dark Energy Survey: Final data release and cosmological results. Phys. Rev. D86 (10), 103518.

642. Peacock, J. A., Jan. 2013. Slipher, galaxies, and cosmological velocity fields. arXiv:1301.7286.

643. Peacock, J. A., Cole, S., Norberg, P., Baugh, C. M., Bland-Hawthorn, J., Bridges, T., et al. , Mar. 2001. A measurement of the cosmological mass density from clustering in the 2dF Galaxy Redshift Survey. Nature 410, 169-173.

644. Peacock, J. A., Dodds, S. J., 1996. Nonlinear evolution of cosmological power spectra. MNRAS 280, L19.

645. Peebles, P. J. E., Oct. 1973. Statistical Analysis of Catalogs of Extragalactic Objects. I. Theory. ApJ 185, 413-440.

646. Peebles, P. J. E., 1980. The large-scale structure of the universe. Princeton University Press, Princeton, NJ.

647. Peebles, P. J. E., Dec. 1982. Large-scale background temperature and mass fluctuations due to scale-invariant primeval perturbations. ApJ Lett 263, L1-L5.

648. Peebles, P. J. E., Sep. 1989. Tracing galaxy orbits back in time. ApJ Lett 344, L53-L56.

649. Peebles, P. J. E., Jun. 2010. Phenomenology of the Invisible Universe. Vol. 1241 of American Institute of Physics Conference Series. pp. 175-182.

650. Peebles, P. J. E., Daly, R. A., Juszkiewicz, R., Dec. 1989. Masses of rich clusters of galaxies as a test of the biased cold dark matter theory. ApJ 347, 563-574.

651. Peebles, P. J. E., Ratra, B., 2003. The cosmological constant and dark energy. Rev. Mod. Phys. 75, 559-606.

652. Peebles, P. J. E., Yu, J. T., Dec. 1970. Primeval Adiabatic Perturbation in an Expanding Universe. ApJ 162, 815-+.

653. Peeples, M. S., Weinberg, D. H., Dave, R., Fardal, M. A., Katz, N., 2010. Pressure Support vs. Thermal Broadening in the Lyman-alpha Forest I: Effects of the Equation of State on Longitudinal Structure. MNRAS 404, 1281-1294.

654. Pen, U.-L., Lee, J., Seljak, U., Nov. 2000. Tentative Detection of Galaxy Spin Correlations in the Tully Catalog. ApJ Lett 543, L107-L110.

655. Pen, U.-L., Zhang, T., van Waerbeke, L., Mellier, Y., Zhang, P., Dubinski, J., Aug. 2003. Detection of Dark Matter Skewness in the VIRMOS-DESCART Survey: Implications for Ω₀. ApJ 592, 664-673.

656. Penzias, A. A., Wilson, R. W., 1965. A Measurement of excess antenna temperature at 4080- Mc/s. ApJ 142, 419-421.

657. Percival, W. J., Baugh, C. M., Bland-Hawthorn, J., Bridges, T., Cannon, R., Cole, S., et al. , Nov. 2001. The 2dF Galaxy Redshift Survey: the power spectrum and the matter content of the Universe. MNRAS 327, 1297-1306.

658. Percival, W. J., Cole, S., Eisenstein, D. J., Nichol, R. C., Peacock, J. A., Pope, A. C., Szalay, A. S., Nov. 2007. Measuring the Baryon Acoustic Oscillation scale using the Sloan Digital Sky Survey and 2dF Galaxy Redshift Survey. MNRAS 381, 1053-1066.

659. Percival, W. J., Reid, B. A., Eisenstein, D. J., Bahcall, N. A., Budavari, T., Frieman, J. A., et al. , Feb. 2010. Baryon acoustic oscillations in the Sloan Digital Sky Survey Data Release 7 galaxy sample. MNRAS 401, 2148-2168.

660. Percival, W. J., Sutherland, W., Peacock, J. A., Baugh, C. M., Bland-Hawthorn, J., Bridges, T., et al. , Dec. 2002. Parameter constraints for flat cosmologies from cosmic microwave background and 2dFGRS power spectra. MNRAS 337, 1068-1080.

661. Percival, W. J., White, M., Feb. 2009. Testing cosmological structure formation using redshift-space distortions. MNRAS 393, 297-308.

662. Perlman, E. S., Horner, D. J., Jones, L. R., Scharf, C. A., Ebeling, H., Wegner, G., Malkan, M., Jun. 2002. The WARPS Survey. VI. Galaxy Cluster and Source Identifications from Phase I. ApJS 140, 265-301.

663. Perlmutter, S., Aldering, G., Goldhaber, G., Knop, R. A., Nugent, P., Castro, P. G., et al. , Jun. 1999. Measurements of Omega and Lambda from 42 High-Redshift Supernovae. ApJ 517, 565-586.

664. Perlmutter, S., Gabi, S., Goldhaber, G., Goobar, A., Groom, D. E., Hook, I. M., et al. , Jul. 1997. Measurements of the Cosmological Parameters Omega and Lambda from the First Seven Supernovae at z ≥ 0.35. ApJ 483, 565.

665. Peterson, J. B., Bandura, K., Pen, U. L., Jun. 2006. The Hubble Sphere Hydrogen Survey. arXiv:astro-ph/0606104.

666. Phillipps, S., Aug. 1994. A Possible Geometric Measurement of the Cosmological Constant. MNRAS 269, 1077-+.

667. Phillips, M. M., 1993. The absolute magnitudes of Type IA supernovae. ApJ 413, L105-L108.

668. Phillips, M. M., Lira, P., Suntzeff, N. B., Schommer, R. A., Hamuy, M., Maza, J., Oct. 1999. The Reddening-Free Decline Rate Versus Luminosity Relationship for Type IA Supernovae. AJ 118, 1766-1776.

669. Phinney, E. S., et al. , 2004. The Big Bang Observer: direct detection of gravitational waves from the birth of the universe to the present. NASA Mission Concept Study.

670. Pierce, M. J., Welch, D. L., McClure, R. D., van den Bergh, S., Racine, R., Stetson, P. B., Sep. 1994. The Nubble constant and Virgo cluster distance from observations of Cepheid variables. Nature 371, 385-389.

671. Pierpaoli, E., Borgani, S., Scott, D., White, M., Jun. 2003. On determining the cluster abundance normalization. MNRAS 342, 163-175.

672. Piffaretti, R., Arnaud, M., Pratt, G. W., Pointecouteau, E., Melin, J.-B., Oct. 2011. The MCXC: a meta-catalogue of x-ray detected clusters of galaxies. A&A 534, A109.

673. Pillepich, A., Porciani, C., Reiprich, T. H., May 2012. The X-ray cluster survey with eRosita: forecasts for cosmology, cluster physics and primordial non-Gaussianity. MNRAS 422, 44-69.

674. Planck Collaboration, 2006. Planck: The scientific programme. arXiv:astro-ph/0604069.

675. Planck Collaboration, Apr. 2012. Planck intermediate results. III. The relation between galaxy cluster mass and Sunyaev-Zeldovich signal. arXiv:1204.2743.

676. Planck Collaboration, Ade, P. A. R., Aghanim, N., Arnaud, M., Ashdown, M., Aumont, J., Baccigalupi, C., Balbi, A., Banday, A. J., Barreiro, R. B., et al. , Dec. 2011a. Planck early results. VIII. The all-sky early Sunyaev-Zeldovich cluster sample. A&A 536, A8.

677. Planck Collaboration, Aghanim, N., Arnaud, M., Ashdown, M., Aumont, J., Baccigalupi, C., Balbi, A., Banday, A. J., Barreiro, R. B., Bartelmann, M., et al. , Dec. 2011b. Planck early results. XII. Cluster Sunyaev-Zeldovich optical scaling relations. A&A 536, A12.

678. Pober, J. C., Parsons, A. R., DeBoer, D. R., McDonald, P., McQuinn, M., Aguirre, J. E., Ali, Z., Bradley, R. F., Chang, T.-C., Morales, M. F., Mar. 2013. The Baryon Acoustic Oscillation Broadband and Broad-beam Array: Design Overview and Sensitivity Forecasts. AJ 145, 65.

679. Popowski, P. A., Weinberg, D. H., Ryden, B. S., Osmer, P. S., May 1998. Quasar Clustering and Spacetime Geometry. ApJ 498, 11.

680. Press, W. H., Schechter, P., 1974. Formation of galaxies and clusters of galaxies by self-similar gravitational condensation. ApJ 187, 425-438.

681. Quercellini, C., Amendola, L., Balbi, A., Cabella, P., Quartin, M., Dec. 2012. Real-time cosmology. Phys Rep 521, 95-134.

682. Ratra, B., Peebles, P. J. E., 1988. Cosmological Consequences of a Rolling Homogeneous Scalar Field. Phys. Rev. D37, 3406.

683. Rauch, M., Miralda-Escude, J., Sargent, W. L. W., Barlow, T. A., Weinberg, D. H., Hernquist, L., Katz, N., Cen, R., Ostriker, J. P., Nov. 1997. The Opacity of the Ly alpha Forest and Implications for Omega B and the Ionizing Background. ApJ 489, 7.

684. Refregier, A., 2003. Shapelets: I. A Method for Image Analysis. MNRAS 338, 35.

685. Refregier, A., Bacon, D., 2003. Shapelets: II. A Method for Weak Lensing Measurements. MNRAS 338, 48.

686. Refregier, A., Rhodes, J., Groth, E. J., 2002. Cosmic Shear and Power Spectrum Normalization with the Hubble Space Telescope. ApJ 572, L131-L134.

687. Regvs, E., Geller, M. J., Sep. 1989. Infall patterns around rich clusters of galaxies. AJ 98, 755-765.

688. Reichardt, C. L., Stalder, B., Bleem, L. E., Montroy, T. E., Aird, K. A., Andersson, K., et al. , Feb. 2013. Galaxy Clusters Discovered via the Sunyaev-Zel'dovich Effect in the First 720 Square Degrees of the South Pole Telescope Survey. ApJ 763, 127.

689. Reid, B. A., Percival, W. J., Eisenstein, D. J., Verde, L., Spergel, D. N., Skibba, R. A., et al. , May 2010. Cosmological constraints from the clustering of the Sloan Digital Sky Survey DR7 luminous red galaxies. MNRAS 404, 60-85.

690. Reid, B. A., Samushia, L., White, M., Percival, W. J., Manera, M., Padmanabhan, N., et al. , Nov. 2012. The clustering of galaxies in the SDSS-III Baryon Oscillation Spectroscopic Survey: measurements of the growth of structure and expansion rate at z = 0.57 from anisotropic clustering. MNRAS 426, 2719-2737.

691. Reid, B. A., White, M., Nov. 2011. Towards an accurate model of the redshift-space clustering of haloes in the quasi-linear regime. MNRAS 417, 1913-1927.

692. Reid, M. J., Braatz, J. A., Condon, J. J., Lo, K. Y., Kuo, C. Y., Impellizzeri, C. M. V., Henkel, C., Jul. 2012a. The Megamaser Cosmology Project: IV. A Direct Measurement of the Hubble Constant from UGC 3789. arXiv:1207.7292.

693. Reiprich, T. H., Bvhringer, H., Mar. 2002. The Mass Function of an X-Ray Flux-limited Sample of Galaxy Clusters. ApJ 567, 716-740.

694. Reyes, R., Mandelbaum, R., Seljak, U., Baldauf, T., Gunn, J. E., Lombriser, L., Smith, R. E., Mar. 2010. Confirmation of general relativity on large scales from weak lensing and galaxy velocities. Nature 464, 256-258.

695. Rhodes, J., Leauthaud, A., Stoughton, C., Massey, R., Dawson, K., Kolbe, W., Roe, N., Apr. 2010. The Effects of Charge Transfer Inefficiency (CTI) on Galaxy Shape Measurements. PASP 122, 439-450.

696. Rhodes, J., Refregier, A., Collins, N. R., Gardner, J. P., Groth, E. J., Hill, R. S., Apr. 2004. Measurement of Cosmic Shear with the Space Telescope Imaging Spectrograph. ApJ 605, 29-36.

697. Rhodes, J., Refregier, A., Groth, E. J., May 2001. Detection of Cosmic Shear with the Hubble Space Telescope Survey Strip. ApJ Lett 552, L85-L88.

698. Rhodes, J. D., Massey, R., Albert, J., Taylor, J. E., Koekemoer, A. M., Leauthaud, A., Jan. 2006. Modeling and Correcting the Time-Dependent ACS PSF. In: Koekemoer, A. M., Goudfrooij, P., Dressel, L. L. (Eds.), The 2005 HST Calibration Workshop: Hubble After the Transition to Two-Gyro Mode. p. 21.

699. Rhook, K. J., Geil, P. M., Wyithe, J. S. B., Feb. 2009. Measurement of the baryonic acoustic oscillation scale in 21cm intensity fluctuations during the reionization era. MNRAS 392, 1388-1396.

700. Riess, A. G., 2012. An Independent Determination of WFC3-IR Zeropoints and Count Rate Non-Linearity from 2MASS Asterisms. HST Instrument Science Report WFC3 2011-15.

701. Riess, A. G., Filippenko, A. V., Challis, P., Clocchiatti, A., Diercks, A., Garnavich, P. M., et al. , Sep. 1998. Observational Evidence from Supernovae for an Accelerating Universe and a Cosmological Constant. AJ 116, 1009-1038.

702. Riess, A. G., Fliri, J., Valls-Gabaud, D., Feb. 2012. Cepheid Period-Luminosity Relations in the Near-infrared and the Distance to M31 from the Hubble Space Telescope Wide Field Camera 3. ApJ 745, 156.

703. Riess, A. G., Livio, M., 2006. The First Type Ia Supernovae: An Empirical Approach to Taming Evolutionary Effects In Dark Energy Surveys from SNe Ia at z > 2. ApJ 648, 884-889.

704. Riess, A. G., Macri, L., Casertano, S., Lampeitl, H., Ferguson, H. C., Filippenko, A. V., Jha, S. W., Li, W., Chornock, R., Apr. 2011. A 3% Solution: Determination of the Hubble Constant with the Hubble Space Telescope and Wide Field Camera 3. ApJ 730, 119.

705. Riess, A. G., Macri, L., Casertano, S., Sosey, M., Lampeitl, H., Ferguson, H. C., Filippenko, A. V., Jha, S. W., Li, W., Chornock, R., Sarkar, D., Jul. 2009. A Redetermination of the Hubble Constant with the Hubble Space Telescope from a Differential Distance Ladder. ApJ 699, 539-563.

706. Riess, A. G., Press, W. H., Kirshner, R. P., 1996. A Precise distance indicator: Type Ia supernova multicolor light curve shapes. ApJ 473, 88.

707. Riess, A. G., Strolger, L.-G., Casertano, S., Ferguson, H. C., Mobasher, B., Gold, B., et al. , Apr. 2007. New Hubble Space Telescope Discoveries of Type Ia Supernovae at z ≥ 1: Narrowing Constraints on the Early Behavior of Dark Energy. ApJ 659, 98-121.

708. Riess, A. G., Strolger, L.-G., Tonry, J., Casertano, S., Ferguson, H. C., Mobasher, B., et al. , Jun. 2004. Type Ia Supernova Discoveries at z > 1 from the Hubble Space Telescope: Evidence for Past Deceleration and Constraints on Dark Energy Evolution. ApJ 607, 665-687.

709. Rines, K., Geller, M. J., Kurtz, M. J., Diaferio, A., Nov. 2003. CAIRNS: The Cluster and Infall Region Nearby Survey. I. Redshifts and Mass Profiles. AJ 126, 2152-2170.

710. Rogstad, D. H., Shostak, G. S., Sep. 1972. Gross Properties of Five Scd Galaxies as Determined from 21-centimeter Observations. ApJ 176, 315-+.

711. Ross, A. J., Ho, S., Cuesta, A. J., Tojeiro, R., Percival, W. J., Wake, D., et al. , Oct. 2011. Ameliorating systematic uncertainties in the angular clustering of galaxies: a study using the SDSS-III. MNRAS 417, 1350-1373.

712. Ross, A. J., Percival, W. J., Sanchez, A. G., Samushia, L., Ho, S., Kazin, E., et al. , Jul. 2012. The clustering of galaxies in the SDSS-III Baryon Oscillation Spectroscopic Survey: analysis of potential systematics. MNRAS 424, 564-590.

713. Rowe, B., 2010. Improving PSF modelling for weak gravitational lensing using new methods in model selection. MNRAS 404, 350-366.

714. Rowe, B., Bacon, D., Massey, R., Heymans, C., Haeussler, B., Taylor, A., Rhodes, J., Mellier, Y., Nov. 2012. Flexion measurement in simulations of Hubble Space Telescope data. arXiv:1211.0966.

715. Rowe, B., Hirata, C., Rhodes, J., Nov. 2011. Optimal Linear Image Combination. ApJ 741, 46.

716. Rozo, E., Bartlett, J. G., Evrard, A. E., Rykoff, E. S., Apr. 2012a. Closing the Loop: A Self-Consistent Model of Optical, X-ray, and SZ Scaling Relations for Clusters of Galaxies. arXiv:1204.6305.

717. Rozo, E., Evrard, A. E., Rykoff, E. S., Bartlett, J. G., Apr. 2012b. A Comparative Study of Local Galaxy Clusters: II: X-ray and SZ Scaling Relations. arXiv:1204.6292.

718. Rozo, E., Rykoff, E., Koester, B., Nord, B., Wu, H.-Y., Evrard, A., Wechsler, R., Oct. 2011a. Extrinsic Sources of Scatter in the Richness-mass Relation of Galaxy Clusters. ApJ 740, 53.

719. Rozo, E., Rykoff, E. S., Bartlett, J. G., Evrard, A. E., Apr. 2012c. A Comparative Study of Local Galaxy Clusters: I. Derived X-ray Observables. arXiv:1204.6301.

720. Rozo, E., Rykoff, E. S., Koester, B. P., McKay, T., Hao, J., Evrard, A., et al. , Sep. 2009. Improvement of the Richness Estimates of maxBCG Clusters. ApJ 703, 601-613.

721. Rozo, E., Vikhlinin, A., More, S., Nov. 2012d. The Y_SZ - Y_X Scaling Relation as Determined from Planck and Chandra. ApJ 760, 67.

722. Rozo, E., Wechsler, R. H., Rykoff, E. S., Annis, J. T., Becker, M. R., Evrard, A. E., et al. , Jan. 2010. Cosmological Constraints from the Sloan Digital Sky Survey maxBCG Cluster Catalog. ApJ 708, 645-660.

723. Rozo, E., Wu, H.-Y., Schmidt, F., Jul. 2011b. Stacked Weak Lensing Mass Calibration: Estimators, Systematics, and Impact on Cosmological Parameter Constraints. ApJ 735, 118-+.

724. Rubin, V. C., Ford, Jr., W. K., Feb. 1970. Rotation of the Andromeda Nebula from a Spectroscopic Survey of Emission Regions. ApJ 159, 379-+.

725. Rudd, D. H., Nagai, D., Aug. 2009. Nonequilibrium Electrons and the Sunyaev-Zel'Dovich Effect of Galaxy Clusters. ApJ Lett 701, L16-L19.

726. Rudd, D. H., Zentner, A. R., Kravtsov, A. V., 2008. Effects of Baryons and Dissipation on the Matter Power Spectrum. ApJ 672, 19-32.

727. Ryden, B. S., Oct. 1995. Measuring q₀ from the Distortion of Voids in Redshift Space. ApJ 452, 25.

728. Ryden, B. S., Melott, A. L., 1996. Voids in Real Space and in Redshift Space. ApJ 470, 160-171.

729. Rykoff, E. S., Koester, B. P., Rozo, E., Annis, J., Evrard, A. E., Hansen, S. M., Hao, J., Johnston, D. E., McKay, T. A., Wechsler, R. H., Feb. 2012. Robust Optical Richness Estimation with Reduced Scatter. ApJ 746, 178.

730. Sachs, R. K., Wolfe, A. M., 1967. Perturbations of a cosmological model and angular variations of the microwave background. ApJ 147, 73-90.

731. Sahni, V., Shafieloo, A., Starobinsky, A. A., Nov. 2008. Two new diagnostics of dark energy. Phys. Rev. D78 (10), 103502.

732. Sakharov, A. D., Jan. 1966. The Initial Stage of an Expanding Universe and the Appearance of a Nonuniform Distribution of Matter. Soviet Journal of Experimental and Theoretical Physics 22, 241.

733. Sako, M., Bassett, B., Becker, A., Cinabro, D., DeJongh, F., Depoy, D. L., et al. , Jan. 2008. The Sloan Digital Sky Survey-II Supernova Survey: Search Algorithm and Follow-Up Observations. AJ 135, 348-373.

734. Salvaterra, R., Della Valle, M., Campana, S., Chincarini, G., Covino, S., D'Avanzo, P., et al. , Oct. 2009. GRB090423 at a redshift of z ~ 8.1. Nature 461, 1258-1260.

735. Samushia, L., Percival, W. J., Raccanelli, A., Mar. 2012. Interpreting large-scale redshift-space distortion measurements. MNRAS 420, 2102-2119.

736. Sandage, A., Sep. 1962. The Change of Redshift and Apparent Luminosity of Galaxies due to the Deceleration of Selected Expanding Universes. ApJ 136, 319.

737. Sarkar, D., Amblard, A., Cooray, A., Holz, D. E., 2008. Implications of Two Type Ia Supernova Populations for Cosmological Measurements. ApJ 684, L13-L16.

738. Sarkar, D., Amblard, A., Holz, D. E., Cooray, A., May 2008a. Lensing and Supernovae: Quantifying the Bias on the Dark Energy Equation of State. ApJ 678, 1-5.

739. Sarkar, D., Sullivan, S., Joudaki, S., Amblard, A., Holz, D. E., Cooray, A., Jun. 2008b. Beyond Two Dark Energy Parameters. Phys. Rev. Lett. 100 (24), 241302-+.

740. Saro, A., Bazin, G., Mohr, J., Dolag, K., Mar. 2012. Toward Unbiased Galaxy Cluster Masses from Line of Sight Velocity Dispersions. arXiv:1203.5708.

741. Sawangwit, U., Shanks, T., Abdalla, F. B., Cannon, R. D., Croom, S. M., Edge, A. C., Ross, N. P., Wake, D. A., Oct. 2011. Angular correlation function of 1.5 million luminous red galaxies: clustering evolution and a search for baryon acoustic oscillations. MNRAS 416, 3033-3056.

742. Sawangwit, U., Shanks, T., Croom, S. M., Drinkwater, M. J., Fine, S., Parkinson, D., Ross, N. P., Mar. 2012. Measuring BAO and non-Gaussianity via QSO clustering. MNRAS 420, 1916-1925.

743. Schaefer, B. E., 2007. The Hubble Diagram to Redshift > 6 from 69 Gamma-Ray Bursts. ApJ 660, 16-46.

744. Schaye, J., 2001. Model-independent insights into the nature of the Lyman- alpha forest and the distribution of matter in the universe. ApJ 559, 507.

745. Schechter, P., 1976. An analytic expression for the luminosity function for galaxies. ApJ 203, 297-306.

746. Schlegel, D., Abdalla, F., Abraham, T., Ahn, C., Allende Prieto, C., Annis, J., et al. , Jun. 2011. The BigBOSS Experiment. arXiv:1106.1706.

747. Schmidt, B. P., Suntzeff, N. B., Phillips, M. M., Schommer, R. A., Clocchiatti, A., Kirshner, R. P., et al. , Nov. 1998. The High-Z Supernova Search: Measuring Cosmic Deceleration and Global Curvature of the Universe Using Type IA Supernovae. ApJ 507, 46-63.

748. Schneider, P., Eifler, T., Krause, E., Sep. 2010. COSEBIs: Extracting the full E-/B-mode information from cosmic shear correlation functions. A&A 520, A116.

749. Schneider, P., Er, X., Jul. 2008. Weak lensing goes bananas: what flexion really measures. A&A 485, 363-376.

750. Schneider, P., Kilbinger, M., 2007. The ring statistics - how to separate E- and B-modes of cosmic shear correlation functions on a finite interval. A&A 462, 841-849.

751. Schneider, P., Kilbinger, M., Lombardi, M., Feb. 2005. The three-point correlation function of cosmic shear. II. Relation to the bispectrum of the projected mass density and generalized third-order aperture measures. A&A 431, 9-25.

752. Schneider, P., Lombardi, M., Jan. 2003. The three-point correlation function of cosmic shear. I. The natural components. A&A 397, 809-818.

753. Schneider, P., van Waerbeke, L., Jain, B., Kruse, G., 1998. A new measure for cosmic shear. MNRAS 296, 873-892.

754. Schrabback, T., Erben, T., Simon, P., Miralles, J.-M., Schneider, P., Heymans, C., et al. , Jun. 2007. Cosmic shear analysis of archival HST/ACS data. I. Comparison of early ACS pure parallel data to the HST/GEMS survey. A&A 468, 823-847.

755. Schrabback, T., Hartlap, J., Joachimi, B., Kilbinger, M., Simon, P., Benabed, K., et al. , Jun. 2010. Evidence of the accelerated expansion of the Universe from weak lensing tomography with COSMOS. A&A 516, A63.

756. Schuecker, P., Bvhringer, H., Collins, C. A., Guzzo, L., Feb. 2003. The REFLEX galaxy cluster survey. VII. Ω_m and σ₈ from cluster abundance and large-scale clustering. A&A 398, 867-877.

757. Schutz, B. F., 1986. Determining the Hubble Constant from Gravitational Wave Observations. Nature 323, 310-311.

758. Schwab, J., Bolton, A. S., Rappaport, S. A., Jan. 2010. Galaxy-Scale Strong-Lensing Tests of Gravity and Geometric Cosmology: Constraints and Systematic Limitations. ApJ 708, 750-757.

759. Scoccimarro, R., 2004. Redshift-Space Distortions, Pairwise Velocities and Nonlinearities. Phys. Rev. D70, 083007.

760. Scoccimarro, R., Sheth, R. K., Hui, L., Jain, B., 2001. How Many Galaxies Fit in a Halo? Constraints on Galaxy Formation Efficiency from Spatial Clustering. ApJ 546, 20-34.

761. Scolnic, D. M., Riess, A. G., Huber, M. E., Rest, A., Stubbs, C. W., Tonry, J. L., Nov. 2009. Optical Cross-Correlation Filters: An Economical Approach for Identifying SNe Ia and Estimating Their Redshifts. ApJ 706, 94-107.

762. Scowcroft, V., Freedman, W. L., Madore, B. F., Monson, A. J., Persson, S. E., Seibert, M., Rigby, J. R., Sturch, L., Dec. 2011. The Carnegie Hubble Program: The Leavitt Law at 3.6 μm and 4.5 μm in the Large Magellanic Cloud. ApJ 743, 76.

763. Scranton, R., Connolly, A. J., Nichol, R. C., Stebbins, A., Szapudi, I., Eisenstein, D. J., et al. , Jul. 2003. Physical Evidence for Dark Energy. arXiv:astro-ph/0307335.

764. Scranton, R., Minard, B., Richards, G. T., Nichol, R. C., Myers, A. D., Jain, B., et al. , Nov. 2005. Detection of Cosmic Magnification with the Sloan Digital Sky Survey. ApJ 633, 589-602.

765. Sehgal, N., Trac, H., Acquaviva, V., Ade, P. A. R., Aguirre, P., Amiri, M., et al. , May 2011. The Atacama Cosmology Telescope: Cosmology from Galaxy Clusters Detected via the Sunyaev-Zel'dovich Effect. ApJ 732, 44.

766. Seljak, U., 2000. Analytic model for galaxy and dark matter clustering. MNRAS 318, 203.

767. Seljak, U., Hamaus, N., Desjacques, V., Aug. 2009. How to Suppress the Shot Noise in Galaxy Surveys. Phys. Rev. Lett. 103 (9), 091303.

768. Seljak, U., Makarov, A., Mandelbaum, R., Hirata, C. M., Padmanabhan, N., McDonald, P., Blanton, M. R., Tegmark, M., Bahcall, N. A., Brinkmann, J., Feb. 2005. SDSS galaxy bias from halo mass-bias relation and its cosmological implications. Phys. Rev. D71 (4), 043511.

769. Seljak, U., McDonald, P., Nov. 2011. Distribution function approach to redshift space distortions. JCAP 11, 39.

770. Seljak, U., Zaldarriaga, M., Oct. 1996. A Line-of-Sight Integration Approach to Cosmic Microwave Background Anisotropies. ApJ 469, 437-+.

771. Semboloni, E., Hoekstra, H., Huang, Z., Cardone, V., Cropper, M., Joachimi, B., et al. , Nov. 2012. On the shear estimation bias induced by the spatial variation of colour across galaxy profiles. arXiv:1211.5025.

772. Semboloni, E., Hoekstra, H., Schaye, J., van Daalen, M. P., McCarthy, I. G., Nov. 2011. Quantifying the effect of baryon physics on weak lensing tomography. MNRAS 417, 2020-2035.

773. Semboloni, E., Mellier, Y., van Waerbeke, L., Hoekstra, H., Tereno, I., Benabed, K., Gwyn, S. D. J., Fu, L., Hudson, M. J., Maoli, R., Parker, L. C., Jun. 2006a. Cosmic shear analysis with CFHTLS deep data. A&A 452, 51-61.

774. Semboloni, E., Mellier, Y., van Waerbeke, L., Hoekstra, H., Tereno, I., Benabed, K., Gwyn, S. D. J., Fu, L., Hudson, M. J., Maoli, R., Parker, L. C., Jun. 2006b. Cosmic shear analysis with CFHTLS deep data. A&A 452, 51-61.

775. Seo, H.-J., Dodelson, S., Marriner, J., Mcginnis, D., Stebbins, A., Stoughton, C., Vallinotto, A., Sep. 2010a. A Ground-based 21 cm Baryon Acoustic Oscillation Survey. ApJ 721, 164-173.

776. Seo, H.-J., Eckel, J., Eisenstein, D. J., Mehta, K., Metchnik, M., Padmanabhan, N., Pinto, P., Takahashi, R., White, M., Xu, X., Sep. 2010b. High-precision Predictions for the Acoustic Scale in the Nonlinear Regime. ApJ 720, 1650-1667.

777. Seo, H.-J., Eisenstein, D. J., Dec. 2003. Probing Dark Energy with Baryonic Acoustic Oscillations from Future Large Galaxy Redshift Surveys. ApJ 598, 720-740.

778. Seo, H.-J., Eisenstein, D. J., Nov. 2005. Baryonic Acoustic Oscillations in Simulated Galaxy Redshift Surveys. ApJ 633, 575-588.

779. Seo, H.-J., Eisenstein, D. J., 2007. Improved forecasts for the baryon acoustic oscillations and cosmological distance scale. ApJ 665, 14-24.

780. Seo, H.-J., Siegel, E. R., Eisenstein, D. J., White, M., Oct. 2008. Nonlinear Structure Formation and the Acoustic Scale. ApJ 686, 13-24.

781. Shandarin, S. F., Melott, A. L., Dec. 1990. Minimal spectrum of long-wave perturbations - Is linear growth correct only in the nonlinear regime? ApJ 364, 396-399.

782. Shang, C., Haiman, Z., Feb. 2011. Cosmology with standard sirens: the importance of the shape of the lensing magnification distribution. MNRAS 411, 9-22.

783. Shapiro, C., Dodelson, S., Hoyle, B., Samushia, L., Flaugher, B., 2010. Will Multiple Probes of Dark Energy find Modified Gravity? Phys. Rev. D82, 043520.

784. Shaw, L. D., Holder, G. P., Bode, P., Oct. 2008. The Impact of Halo Properties, Energy Feedback, and Projection Effects on the Mass-SZ Flux Relation. ApJ 686, 206-218.

785. Sheldon, E. S., Cunha, C. E., Mandelbaum, R., Brinkmann, J., Weaver, B. A., Aug. 2012. Photometric Redshift Probability Distributions for Galaxies in the SDSS DR8. ApJS 201, 32.

786. Sheldon, E. S., Johnston, D. E., Frieman, J. A., Scranton, R., McKay, T. A., Connolly, A. J., Budavari, T., Zehavi, I., Bahcall, N. A., Brinkmann, J., Fukugita, M., May 2004. The Galaxy-Mass Correlation Function Measured from Weak Lensing in the Sloan Digital Sky Survey. AJ 127, 2544-2564.

787. Sheldon, E. S., Johnston, D. E., Scranton, R., Koester, B. P., McKay, T. A., Oyaizu, H., et al. , Oct. 2009. Cross-correlation Weak Lensing of SDSS Galaxy Clusters. I. Measurements. ApJ 703, 2217-2231.

788. Sherwin, B. D., et al. , 2011. Evidence for dark energy from the cosmic microwave background alone using the Atacama Cosmology Telescope lensing measurements. Phys. Rev. Lett. 107, 021302.

789. Sheth, R. K., Tormen, G., 1999. Large scale bias and the peak background split. MNRAS 308, 119.

790. Shoji, M., Jeong, D., Komatsu, E., Mar. 2009. Extracting Angular Diameter Distance and Expansion Rate of the Universe From Two-Dimensional Galaxy Power Spectrum at High Redshifts: Baryon Acoustic Oscillation Fitting Versus Full Modeling. ApJ 693, 1404-1416.

791. Silk, J., Feb. 1968. Cosmic Black-Body Radiation and Galaxy Formation. ApJ 151, 459-+.

792. Silverman, J. M., Ganeshalingam, M., Li, W., Filippenko, A. V., Sep. 2012. Berkeley Supernova Ia Program - III. Spectra near maximum brightness improve the accuracy of derived distances to Type Ia supernovae. MNRAS 425, 1889-1916.

793. Simpson, F., Bridle, S., 2006. The redshift sensitivities of dark energy surveys. Phys. Rev. D73, 083001.

794. Skordis, C., Albrecht, A., 2002. Planck-scale quintessence and the physics of structure formation. Phys. Rev. D66, 043523.

795. Slosar, A., Font-Ribera, A., Pieri, M. M., Rich, J., Le Goff, J.-M., Aubourg, I., et al. , Sep. 2011. The Lyman-α forest in three dimensions: measurements of large scale flux correlations from BOSS 1st-year data. JCAP 9, 1.

796. Slosar, A., Irsic, V., Kirkby, D., Bailey, S., Busca, N. G., Delubac, T., et al. , Jan. 2013. Measurement of Baryon Acoustic Oscillations in the Lyman-alpha Forest Fluctuations in BOSS Data Release 9. arXiv:1301.3459.

797. Smith, D. R., Bernstein, G. M., Fischer, P., Jarvis, M., Apr. 2001. Weak-Lensing Determination of the Mass in Galaxy Halos. ApJ 551, 643-650.

798. Smith, K. M., Zahn, O., Dore, O., 2007. Detection of Gravitational Lensing in the Cosmic Microwave Background. Phys. Rev. D76, 043510.

799. Smith, R. E., Peacock, J. A., Jenkins, A., White, S. D. M., Frenk, C. S., Pearce, F. R., Thomas, P. A., Efstathiou, G., Couchman, H. M. P., Jun. 2003. Stable clustering, the halo model and non-linear cosmological power spectra. MNRAS 341, 1311-1332.

800. Smith, R. E., Scoccimarro, R., Sheth, R. K., Feb. 2008. Motion of the acoustic peak in the correlation function. Phys. Rev. D77 (4), 043525-+.

801. Smith, S., Jan. 1936. The Mass of the Virgo Cluster. ApJ 83, 23.

802. Smoot, G. F., Bennett, C. L., Kogut, A., Wright, E. L., Aymon, J., Boggess, N. W., et al. , Sep. 1992. Structure in the COBE differential microwave radiometer first-year maps. ApJ Lett 396, L1-L5.

803. Sobral, D., Smail, I., Best, P. N., Geach, J. E., Matsuda, Y., Stott, J. P., Cirasuolo, M., Kurk, J., Jan. 2013. A large Hα survey at z = 2.23, 1.47, 0.84 and 0.40: the 11 Gyr evolution of star-forming galaxies from HiZELS. MNRAS 428, 1128-1146.

804. Song, Y.-S., Hu, W., Sawicki, I., 2007. The large scale structure of f(R) gravity. Phys. Rev. D75, 044004.

805. Sorce, J. G., Tully, R. B., Courtois, H. M., Oct. 2012. The Mid-infrared Tully-Fisher Relation: Calibration of the Type Ia Supernova Scale and H₀. ApJ Lett 758, L12.

806. Soucail, G., Kneib, J.-P., Golse, G., Apr. 2004. Multiple-images in the cluster lens Abell 2218: Constraining the geometry of the Universe? A&A 417, L33-L37.

807. Springel, V., White, S. D. M., Jenkins, A., Frenk, C. S., Yoshida, N., Gao, L., et al. , Jun. 2005. Simulations of the formation, evolution and clustering of galaxies and quasars. Nature 435, 629-636.

808. Stanek, R., Rasia, E., Evrard, A. E., Pearce, F., Gazzola, L., Jun. 2010. Massive Halos in Millennium Gas Simulations: Multivariate Scaling Relations. ApJ 715, 1508-1523.

809. Stanek, R., Rudd, D., Evrard, A. E., Mar. 2009. The effect of gas physics on the halo mass function. MNRAS 394, L11-L15.

810. Stanford, S. A., Brodwin, M., Gonzalez, A. H., Zeimann, G., Stern, D., Dey, A., Eisenhardt, P. R., Snyder, G. F., Mancone, C., Jul. 2012. IDCS J1426.5+3508: Discovery of a Massive, Infrared-selected Galaxy Cluster at z = 1.75. ApJ 753, 164.

811. Stanford, S. A., Eisenhardt, P. R., Brodwin, M., Gonzalez, A. H., Stern, D., Jannuzi, B. T., Dey, A., Brown, M. J. I., McKenzie, E., Elston, R., Dec. 2005. An IR-selected Galaxy Cluster at z = 1.41. ApJ Lett 634, L129-L132.

812. Starobinsky, A. A., Nov. 1998. How to determine an effective potential for a variable cosmological term. Soviet Journal of Experimental and Theoretical Physics Letters 68, 757-763.

813. Steffen, A. T., Strateva, I., Brandt, W. N., Alexander, D. M., Koekemoer, A. M., Lehmer, B. D., Schneider, D. P., Vignali, C., Jun. 2006. The X-Ray-to-Optical Properties of Optically Selected Active Galaxies over Wide Luminosity and Redshift Ranges. AJ 131, 2826-2842.

814. Steigman, G., 2010. Primordial Nucleosynthesis: The Predicted and Observed Abundances and Their Consequences. arXiv:1008.4765.

815. Steinhardt, P. J., Wang, L.-M., Zlatev, I., 1999. Cosmological tracking solutions. Phys. Rev. D59, 123504.

816. Stril, A., Cahn, R. N., Linder, E. V., 2010. Testing Standard Cosmology with Large Scale Structure. MNRAS 404, 239.

817. Stritzinger, M. D., Phillips, M. M., Boldt, L. N., Burns, C., Campillay, A., Contreras, C., et al. , Nov. 2011. The Carnegie Supernova Project: Second Photometry Data Release of Low-redshift Type Ia Supernovae. AJ 142, 156.

818. Stubbs, C. W., Tonry, J. L., 2006. Toward 1% Photometry: End-to-end Calibration of Astronomical Telescopes and Detectors. ApJ 646, 1436-1444.

819. Sullivan, M., Conley, A., Howell, D. A., Neill, J. D., Astier, P., et al. , Aug. 2010. The dependence of Type Ia Supernovae luminosities on their host galaxies. MNRAS 406, 782-802.

820. Sullivan, M., Guy, J., Conley, A., Regnault, N., Astier, P., Balland, C., et al. , Aug. 2011. SNLS3: Constraints on Dark Energy Combining the Supernova Legacy Survey Three-year Data with Other Probes. ApJ 737, 102.

821. Sun, M., Voit, G. M., Donahue, M., Jones, C., Forman, W., Vikhlinin, A., Mar. 2009. Chandra Studies of the X-Ray Gas Properties of Galaxy Groups. ApJ 693, 1142-1172.

822. Sunyaev, R. A., Zeldovich, Y. B., Apr. 1970. Small-Scale Fluctuations of Relic Radiation. Ap & SS 7, 3-19.

823. Susskind, L., 2003. The anthropic landscape of string theory. arXiv:hep-th/0302219.

824. Sutter, P. M., Lavaux, G., Wandelt, B. D., Weinberg, D. H., Dec. 2012. A First Application of the Alcock-Paczynski Test to Stacked Cosmic Voids. ApJ 761, 187.

825. Suyu, S. H., Auger, M. W., Hilbert, S., Marshall, P. J., Tewes, M., Treu, T., et al. , Aug. 2012a. Two accurate time-delay distances from strong lensing: Implications for cosmology. arXiv:1208.6010.

826. Suyu, S. H., Hensel, S. W., McKean, J. P., Fassnacht, C. D., Treu, T., Halkola, A., et al. , May 2012b. Disentangling Baryons and Dark Matter in the Spiral Gravitational Lens B1933+503. ApJ 750, 10.

827. Suyu, S. H., Marshall, P. J., Auger, M. W., Hilbert, S., Blandford, R. D., Koopmans, L. V. E., Fassnacht, C. D., Treu, T., Mar. 2010. Dissecting the Gravitational lens B1608+656. II. Precision Measurements of the Hubble Constant, Spatial Curvature, and the Dark Energy Equation of State. ApJ 711, 201-221.

828. Suzuki, N., Rubin, D., Lidman, C., Aldering, G., Amanullah, R., Barbary, K., et al. , Feb. 2012. The Hubble Space Telescope Cluster Supernova Survey. V. Improving the Dark-energy Constraints above z = 1 and Building an Early-type-hosted Supernova Sample. ApJ 746, 85.

829. Szabo, T., Pierpaoli, E., Dong, F., Pipino, A., Gunn, J., Jul. 2011. An Optical Catalog of Galaxy Clusters Obtained from an Adaptive Matched Filter Finder Applied to Sloan Digital Sky Survey Data Release 6. ApJ 736, 21.

830. Takada, M., Jain, B., Jan. 2003. The Three-Point Correlation Function for Spin-2 Fields. ApJ Lett 583, L49-L52.

831. Takada, M., Jain, B., Mar. 2004. Cosmological parameters from lensing power spectrum and bispectrum tomography. MNRAS 348, 897-915.

832. Tang, J., Abdalla, F. B., Weller, J., Sep. 2011. Complementarity of future dark energy probes. MNRAS 416, 2212-2232.

833. Tanvir, N. R., Fox, D. B., Levan, A. J., Berger, E., Wiersema, K., Fynbo, J. P. U., et al. , Oct. 2009. A γ-ray burst at a redshift of z ~ 8.2. Nature 461, 1254-1257.

834. Taruya, A., Nishimichi, T., Saito, S., Sep. 2010. Baryon acoustic oscillations in 2D: Modeling redshift-space power spectrum from perturbation theory. Phys. Rev. D82 (6), 063522-+.

835. Tavio, H., Cuesta, A. J., Prada, F., Klypin, A. A., Sanchez-Conde, M. A., Jul. 2008. The dark outside: the density profile of dark matter haloes beyond the virial radius. arXiv:0807.3027.

836. Taylor, S. R., Gair, J. R., Jul. 2012. Cosmology with the lights off: Standard sirens in the Einstein Telescope era. Phys. Rev. D86 (2), 023502.

837. Tegmark, M., Nov. 1997. Measuring Cosmological Parameters with Galaxy Surveys. Phys. Rev. Lett. 79, 3806-3809.

838. Tegmark, M., Blanton, M. R., Strauss, M. A., Hoyle, F., Schlegel, D., Scoccimarro, R., et al. , May 2004. The Three-Dimensional Power Spectrum of Galaxies from the Sloan Digital Sky Survey. ApJ 606, 702-740.

839. Tegmark, M., Eisenstein, D. J., Strauss, M. A., Weinberg, D. H., Blanton, M. R., Frieman, J. A., et al. , Dec. 2006. Cosmological constraints from the SDSS luminous red galaxies. Phys. Rev. D74 (12), 123507-+.

840. Tegmark, M., Hamilton, A. J. S., Strauss, M. A., Vogeley, M. S., Szalay, A. S., May 1998. Measuring the Galaxy Power Spectrum with Future Redshift Surveys. ApJ 499, 555-+.

841. Tegmark, M., Rees, M. J., 1998. Why is the CMB fluctuation level 10^-5? ApJ 499, 526-532.

842. Tegmark, M., Zaldarriaga, M., Nov. 2010. Omniscopes: Large area telescope arrays with only NlogN computational cost. Phys. Rev. D82 (10), 103501-+.

843. Tinker, J., Kravtsov, A. V., Klypin, A., Abazajian, K., Warren, M., Yepes, G., Gottlvber, S., Holz, D. E., Dec. 2008. Toward a Halo Mass Function for Precision Cosmology: The Limits of Universality. ApJ 688, 709-728.

844. Tinker, J. L., 2007. Redshift-Space Distortions with the Halo Occupation Distribution II: Analytic Model. MNRAS 374, 477-492.

845. Tinker, J. L., Robertson, B. E., Kravtsov, A. V., Klypin, A., Warren, M. S., Yepes, G., Gottlvber, S., Dec. 2010. The Large-scale Bias of Dark Matter Halos: Numerical Calibration and Model Tests. ApJ 724, 878-886.

846. Tinker, J. L., Sheldon, E. S., Wechsler, R. H., Becker, M. R., Rozo, E., Zu, Y., et al. , Jan. 2012. Cosmological Constraints from Galaxy Clustering and the Mass-to-number Ratio of Galaxy Clusters. ApJ 745, 16.

847. Tinker, J. L., Weinberg, D. H., Zheng, Z., 2006. Redshift-Space Distortions with the Halo Occupation Distribution I: Numerical Simulations. MNRAS 368, 85-108.

848. Tonry, J. L., Schmidt, B. P., Barris, B., Candia, P., Challis, P., Clocchiatti, A., et al. , Sep. 2003. Cosmological Results from High-z Supernovae. ApJ 594, 1-24.

849. Tripp, R., Mar. 1998. A two-parameter luminosity correction for Type IA supernovae. A&A 331, 815-820.

850. Trotta, R., Kunz, M., Liddle, A. R., Jul. 2011. Designing decisive detections. MNRAS 414, 2337-2344.

851. Tseliakhovich, D., Hirata, C., Oct. 2010. Relative velocity of dark matter and baryonic fluids and the formation of the first structures. Phys. Rev. D82 (8), 083520.

852. Tully, R. B., Fisher, J. R., Feb. 1977. A new method of determining distances to galaxies. A&A 54, 661-673.

853. Tyson, J. A., Valdes, F., Jarvis, J. F., Mills, Jr., A. P., Jun. 1984. Galaxy mass distribution from gravitational light deflection. ApJ Lett 281, L59-L62.

854. Valageas, P., Clerc, N., Pacaud, F., Pierre, M., Dec. 2011. Covariance matrices for halo number counts and correlation functions. A&A 536, A95.

855. Valdes, F., Jarvis, J. F., Tyson, J. A., Aug. 1983. Alignment of faint galaxy images - Cosmological distortion and rotation. ApJ 271, 431-441.

856. van Daalen, M. P., Schaye, J., Booth, C. M., Vecchia, C. D., 2011. The effects of galaxy formation on the matter power spectrum: A challenge for precision cosmology. MNRAS 415, 3649-3665.

857. van den Bergh, S., Aug. 2011. The Curious Case of Lemantre's Equation No. 24. JRASC 105, 151.

858. van den Bosch, F. C., Weinmann, S. M., Yang, X., Mo, H. J., Li, C., Jing, Y. P., Aug. 2005. The phase-space parameters of the brightest halo galaxies. MNRAS 361, 1203-1215.

859. van Engelen, A., Keisler, R., Zahn, O., Aird, K. A., Benson, B. A., Bleem, L. E., et al. , Sep. 2012. A Measurement of Gravitational Lensing of the Microwave Background Using South Pole Telescope Data. ApJ 756, 142.

860. van Leeuwen, F., Feast, M. W., Whitelock, P. A., Laney, C. D., 2007. Cepheid Parallaxes and the Hubble Constant. MNRAS 379, 723-737.

861. Van Waerbeke, L., Mellier, Y., Erben, T., Cuillandre, J. C., Bernardeau, F., Maoli, R., et al. , Jun. 2000. Detection of correlated galaxy ellipticities from CFHT data: first evidence for gravitational lensing by large-scale structures. A&A 358, 30-44.

862. Van Waerbeke, L., Mellier, Y., Pells, R., Pen, U.-L., McCracken, H. J., Jain, B., Oct. 2002. Likelihood analysis of cosmic shear on simulated and VIRMOS-DESCART data. A&A 393, 369-379.

863. Van Waerbeke, L., Mellier, Y., Radovich, M., Bertin, E., Dantel-Fort, M., McCracken, H. J., et al. , Aug. 2001. Cosmic shear statistics and cosmology. A&A 374, 757-769.

864. Vanderlinde, K., Crawford, T. M., de Haan, T., Dudley, J. P., Shaw, L., Ade, P. A. R., et al. , Oct. 2010. Galaxy Clusters Selected with the Sunyaev-Zel'dovich Effect from 2008 South Pole Telescope Observations. ApJ 722, 1180-1196.

865. Velander, M., Kuijken, K., Schrabback, T., Apr. 2011. Probing galaxy dark matter haloes in COSMOS with weak lensing flexion. MNRAS 412, 2665-2677.

866. Viel, M., Haehnelt, M. G., Springel, V., 2004. Inferring the dark matter power spectrum from the Lyman- alpha forest in high-resolution QSO absorption spectra. MNRAS 354, 684.

867. Viel, M., Matarrese, S., Heavens, A., Haehnelt, M. G., Kim, T.-S., Springel, V., Hernquist, L., Jan. 2004. The bispectrum of the Lyman α forest at z~ 2-2.4 from a large sample of UVES QSO absorption spectra (LUQAS). MNRAS 347, L26-L30.

868. Vikhlinin, A., Kravtsov, A. V., Burenin, R. A., Ebeling, H., Forman, W. R., Hornstrup, A., Jones, C., Murray, S. S., Nagai, D., Quintana, H., Voevodkin, A., Feb. 2009. Chandra Cluster Cosmology Project III: Cosmological Parameter Constraints. ApJ 692, 1060-1074.

869. Vogeley, M. S., Szalay, A. S., Jul. 1996. Eigenmode Analysis of Galaxy Redshift Surveys. I. Theory and Methods. ApJ 465, 34-+.

870. Voges, W., Aschenbach, B., Boller, T., Brduninger, H., Briel, U., Burkert, W., et al. , Sep. 1999. The ROSAT all-sky survey bright source catalogue. A&A 349, 389-405.

871. Voigt, L. M., Bridle, S. L., Amara, A., Cropper, M., Kitching, T. D., Massey, R., Rhodes, J., Schrabback, T., Apr. 2012. The impact of galaxy colour gradients on cosmic shear measurement. MNRAS 421, 1385-1398.

872. Voit, G. M., Apr. 2005. Tracing cosmic evolution with clusters of galaxies. Reviews of Modern Physics 77, 207-258.

873. von der Linden, A., Allen, M. T., Applegate, D. E., Kelly, P. L., Allen, S. W., Ebeling, H., et al. , Aug. 2012. Weighing the Giants I: Weak Lensing Masses for 51 Massive Galaxy Clusters - Project Overview, Data Analysis Methods, and Cluster Images. arXiv:1208.0597.

874. Wagner, C., M|ller, V., Steinmetz, M., Aug. 2008. Constraining dark energy via baryon acoustic oscillations in the (an)isotropic light-cone power spectrum. A&A 487, 63-74.

875. Walker, E. S., Hook, I. M., Sullivan, M., Howell, D. A., Astier, P., Balland, C., et al. , Jan. 2011. Supernova Legacy Survey: using spectral signatures to improve Type Ia supernovae as distance indicators. MNRAS 410, 1262-1282.

876. Wang, L.-M., Steinhardt, P. J., 1998. Cluster Abundance Constraints on Quintessence Models. ApJ 508, 483-490.

877. Wang, Y., 1999. Analytical Modeling of the Weak Lensing of Standard Candles. ApJ 525, 651.

878. Wang, Y., Jun. 2000. Flux-averaging Analysis of Type IA Supernova Data. ApJ 536, 531-539.

879. Wang, Y., 2008. Figure of Merit for Dark Energy Constraints from Current Observational Data. Phys. Rev. D77, 123525.

880. Wang, Y., Chuang, C.-H., Hirata, C. M., Nov. 2012b. Toward More Realistic Forecasting of Dark Energy Constraints from Galaxy Redshift Surveys. arXiv:1211.0532.

881. Wang, Y., Chuang, C.-H., Mukherjee, P., Jan. 2012. Comparative study of dark energy constraints from current observational data. Phys. Rev. D85 (2), 023517.

882. Wang, Y., Percival, W., Cimatti, A., Mukherjee, P., Guzzo, L., et al. , Dec. 2010. Designing a space-based galaxy redshift survey to probe dark energy. MNRAS 409, 737-749.

883. Wang, Y., Tegmark, M., 2005. Uncorrelated Measurements of the Cosmic Expansion History and Dark Energy from Supernovae. Phys. Rev. D71, 103513.

884. Watson, D., Denney, K. D., Vestergaard, M., Davis, T. M., Oct. 2011. A New Cosmological Distance Measure Using Active Galactic Nuclei. ApJ Lett 740, L49+.

885. Wei, H., Zhang, S. N., Jul. 2008. How to distinguish dark energy and modified gravity? Phys. Rev. D78 (2), 023011.

886. Weinberg, D. H., Jan. 1992. Reconstructing primordial density fluctuations. I - Method. MNRAS 254, 315-342.

887. Weinberg, D. H., 2005. Dark Energy: The Observational Challenge. New Astron. Rev. 49, 337-345.

888. Weinberg, D. H., Cole, S., Dec. 1992. Non-Gaussian fluctuations and the statistics of galaxy clustering. MNRAS 259, 652-694.

889. Weinberg, D. H., Gunn, J. E., Nov. 1990. Largescale Structure and the Adhesion Approximation. MNRAS 247, 260.

890. Weinberg, D. H., Katz, N., Hernquist, L., 1998. Simulating Cosmic Structure Formation. In: Woodward, C. E., Shull, J. M., Thronson, Jr., H. A. (Eds.), Origins. Vol. 148 of Astronomical Society of the Pacific Conference Series. p. 21.

891. Weinberg, S., 1989. The cosmological constant problem. Rev. Mod. Phys. 61, 1-23.

892. Weller, J., Lewis, A. M., Dec. 2003. Large-scale cosmic microwave background anisotropies and dark energy. MNRAS 346, 987-993.

893. Wen, Z. L., Han, J. L., Liu, F. S., Aug. 2009. Galaxy Clusters Identified from the SDSS DR6 and Their Properties. ApJ 183, 197-213.

894. Wen, Z. L., Han, J. L., Liu, F. S., Sep. 2010. Mass function of rich galaxy clusters and its constraint on σ₈. MNRAS 407, 533-543.

895. White, M., Mar. 2003. The Ly-a forest. In: The Davis Meeting On Cosmic Inflation, arXiv:astro-ph/0305474.

896. White, M., Cohn, J. D., Smit, R., Nov. 2010. Cluster galaxy dynamics and the effects of large-scale environment. MNRAS 408, 1818-1834.

897. White, M., Song, Y.-S., Percival, W. J., 2009. Forecasting Cosmological Constraints from Redshift Surveys. MNRAS 397, 1348-1354.

898. White, S. D. M., Efstathiou, G., Frenk, C. S., 1993. The Amplitude of mass fluctuations in the universe. MNRAS 262, 1023-1028.

899. White, S. D. M., Navarro, J. F., Evrard, A. E., Frenk, C. S., Dec. 1993. The baryon content of galaxy clusters: a challenge to cosmological orthodoxy. Nature 366, 429-433.

900. Williamson, R., Benson, B. A., High, F. W., Vanderlinde, K., Ade, P. A. R., Aird, K. A., et al. , Sep. 2011. A Sunyaev-Zel'dovich-selected Sample of the Most Massive Galaxy Clusters in the 2500 deg² South Pole Telescope Survey. ApJ 738, 139.

901. Wilson, G., Muzzin, A., Lacy, M., Yee, H., Surace, J., Lonsdale, C., Hoekstra, H., Majumdar, S., Gilbank, D., Gladders, M., Apr. 2006. Clusters of Galaxies at 1 < z < 2 : The Spitzer Adaptation of the Red-Sequence Cluster Survey. arXiv:astro-ph/0604289.

902. Wilson, G., Muzzin, A., Yee, H. K. C., Lacy, M., Surace, J., Gilbank, D., et al. , Jun. 2009. Spectroscopic Confirmation of a Massive Red-Sequence-Selected Galaxy Cluster at z = 1.34 in the SpARCS-South Cluster Survey. ApJ 698, 1943-1950.

903. Wittman, D. M., Tyson, J. A., Kirkman, D., Dell'Antonio, I., Bernstein, G., May 2000. Detection of weak gravitational lensing distortions of distant galaxies by cosmic dark matter at large scales. Nature 405, 143-148.

904. Wood-Vasey, W. M., Friedman, A. S., Bloom, J. S., Hicken, M., Modjaz, M., Kirshner, R. P., et al. , Dec. 2008. Type Ia Supernovae Are Good Standard Candles in the Near Infrared: Evidence from PAIRITEL. ApJ 689, 377-390.

905. Wood-Vasey, W. M., Miknaitis, G., Stubbs, C. W., Jha, S., Riess, A. G., Garnavich, P. M., et al. , Sep. 2007. Observational Constraints on the Nature of Dark Energy: First Cosmological Results from the ESSENCE Supernova Survey. ApJ 666, 694-715.

906. Wu, H.-Y., Zentner, A. R., Wechsler, R. H., Apr. 2010. The Impact of Theoretical Uncertainties in the Halo Mass Function and Halo Bias on Precision Cosmology. ApJ 713, 856-864.

907. Wyithe, J. S. B., Brown, M. J. I., May 2010. The halo occupation distribution of HI from 21-cm intensity mapping at moderate redshifts. MNRAS 404, 876-884.

908. Wyithe, J. S. B., Dijkstra, M., Aug. 2011. Non-gravitational contributions to the clustering of Lyα selected galaxies: implications for cosmological surveys. MNRAS 415, 3929-3950.

909. Wyithe, J. S. B., Loeb, A., Geil, P. M., Jan. 2008. Baryonic acoustic oscillations in 21-cm emission: a probe of dark energy out to high redshifts. MNRAS 383, 1195-1209.

910. Xu, X., Cuesta, A. J., Padmanabhan, N., Eisenstein, D. J., McBride, C. K., Jun. 2012a. Measuring D_A and H at z = 0.35 from the SDSS DR7 LRGs using baryon acoustic oscillations. arXiv:1206.6732.

911. Xu, X., Padmanabhan, N., Eisenstein, D. J., Mehta, K. T., Cuesta, A. J., Dec. 2012b. A 2 per cent distance to z = 0.35 by reconstructing baryon acoustic oscillations - II. Fitting techniques. MNRAS 427, 2146-2167.

912. Xu, X., White, M., Padmanabhan, N., Eisenstein, D. J., Eckel, J., Mehta, K., Metchnik, M., Pinto, P., Seo, H.-J., Aug. 2010. A New Statistic for Analyzing Baryon Acoustic Oscillations. ApJ 718, 1224-1234.

913. Yang, J.-M., Schramm, D. N., Steigman, G., Rood, R. T., 1979. Constraints on Cosmology and Neutrino Physics from Big Bang Nucleosynthesis. ApJ 227, 697-704.

914. Yang, X., Mo, H. J., van den Bosch, F. C., Pasquali, A., Li, C., Barden, M., Dec. 2007. Galaxy Groups in the SDSS DR4. I. The Catalog and Basic Properties. ApJ 671, 153-170.

915. Yoo, J., Jan. 2009. Complete treatment of galaxy two-point statistics: Gravitational lensing effects and redshift-space distortions. Phys. Rev. D79 (2), 023517.

916. Yoo, J., Dalal, N., Seljak, U., Jul. 2011. Supersonic relative velocity effect on the baryonic acoustic oscillation measurements. JCAP 7, 18.

917. Yoo, J., Fitzpatrick, A. L., Zaldarriaga, M., Oct. 2009. New perspective on galaxy clustering as a cosmological probe: General relativistic effects. Phys. Rev. D80 (8), 083514.

918. Yoo, J., Seljak, U., Oct. 2012. Joint analysis of gravitational lensing, clustering, and abundance: Toward the unification of large-scale structure analysis. Phys. Rev. D86 (8), 083504.

919. Yoo, J., Tinker, J. L., Weinberg, D. H., Zheng, Z., Katz, N., Davi, R., Nov. 2006. From Galaxy-Galaxy Lensing to Cosmological Parameters. ApJ 652, 26-42.

920. Yoo, J., Weinberg, D. H., Tinker, J. L., Zheng, Z., Warren, M. S., 2009. Extending Recovery of the Primordial Matter Power Spectrum. ApJ 698, 967-985.

921. Young, O. E., Thomas, P. A., Short, C. J., Pearce, F., May 2011. Baryon fractions in clusters of galaxies: evidence against a pre-heating model for entropy generation. MNRAS 413, 691-704.

922. Yu, H., Tozzi, P., Borgani, S., Rosati, P., Zhu, Z.-H., May 2011. Measuring redshifts using X-ray spectroscopy of galaxy clusters: results from Chandra data and future prospects. A&A 529, A65.

923. Zaldarriaga, M., Scoccimarro, R., Feb. 2003. Higher Order Moments of the Cosmic Shear and Other Spin-2 Fields. ApJ 584, 559-565.

924. Zaldarriaga, M., Seljak, U., Feb. 1997. All-sky analysis of polarization in the microwave background. Phys. Rev. D55, 1830-1840.

925. Zaldarriaga, M., Seljak, U., Aug. 2000. CMBFAST for Spatially Closed Universes. ApJS 129, 431-434.

926. Zehavi, I., Zheng, Z., Weinberg, D. H., Blanton, M. R., Bahcall, N. A., Berlind, A. A., et al. , Jul. 2011. Galaxy Clustering in the Completed SDSS Redshift Survey: The Dependence on Color and Luminosity. ApJ 736, 59.

927. Zehavi, I., Zheng, Z., Weinberg, D. H., Frieman, J. A., Berlind, A. A., Blanton, M. R., et al. , Sep. 2005. The Luminosity and Color Dependence of the Galaxy Correlation Function. ApJ 630, 1-27.

928. Zeimann, G. R., Stanford, S. A., Brodwin, M., Gonzalez, A. H., Snyder, G. F., Stern, D., Eisenhardt, P., Mancone, C., Dey, A., Sep. 2012. IDCS J1433.2+3306: An Infrared-selected Galaxy Cluster at z = 1.89. ApJ 756, 115.

929. Zel'dovich, Y. B., Mar. 1968. Special Issue: the Cosmological Constant and the Theory of Elementary Particles. Soviet Physics Uspekhi 11, 381-393.

930. Zel'dovich, Y. B., Mar. 1970. Gravitational instability: An approximate theory for large density perturbations. A&A 5, 84-89.

931. Zentner, A. R., Rudd, D. H., Hu, W., 2008. Self Calibration of Tomographic Weak Lensing for the Physics of Baryons to Constrain Dark Energy. Phys. Rev. D77, 043507.

932. Zentner, A. R., Semboloni, E., Dodelson, S., Eifler, T., Krause, E., Hearin, A. P., Dec. 2012. Accounting for Baryons in Cosmological Constraints from Cosmic Shear. arXiv:1212.1177.

933. Zhang, P., Liguori, M., Bean, R., Dodelson, S., 2007. Probing Gravity at Cosmological Scales by Measurements which Test the Relationship between Gravitational Lensing and Matter Overdensity. Phys. Rev. Lett. 99, 141302.

934. Zhang, P., Pen, U.-L., Bernstein, G., Jun. 2010. Self-calibration of photometric redshift scatter in weak-lensing surveys. MNRAS 405, 359-374.

935. Zhao, G.-B., et al. , 2010. Probing modifications of General Relativity using current cosmological observations. Phys. Rev. D81, 103510.

936. Zheng, Z., Cen, R., Trac, H., Miralda-Escudi, J., Jan. 2011. Radiative Transfer Modeling of Lyα Emitters. II. New Effects on Galaxy Clustering. ApJ 726, 38-+.

937. Zlatev, I., Wang, L., Steinhardt, P. J., Feb. 1999. Quintessence, Cosmic Coincidence, and the Cosmological Constant. Phys. Rev. Lett. 82, 896-899.

938. Zu, Y., Weinberg, D. H., Nov. 2012. The Redshift-Space Cluster-Galaxy Cross-Correlation Function: I. Modeling Galaxy Infall onto Millennium Simulation Clusters and SDSS Groups. arXiv:1211.1379.

939. Zu, Y., Weinberg, D. H., Rozo, E., Sheldon, E. S., Tinker, J. L., Becker, M. R., Jul. 2012. Cosmological Constraints from the Large Scale Weak Lensing of SDSS MaxBCG Clusters. arXiv:1207.3794.

940. Zunckel, C., Okouma, P., Muya Kasanda, S., Moodley, K., Bassett, B. A., Feb. 2011. Fundamental uncertainty in the BAO scale from isocurvature modes. Physics Letters B 696, 433-437.

941. Zwicky, F., 1933. Die Rotverschiebung von extragalaktischen Nebeln. Helvetica Physica Acta 6, 110-127.

942. Zwicky, F., Oct. 1937. On the Masses of Nebulae and of Clusters of Nebulae. ApJ 86, 217.