REFERENCES

1. Agertz O, Kravtsov AV (2015) On the Interplay between Star Formation and Feedback in Galaxy Formation Simulations. ApJ 804:18, DOI 10.1088/0004-637X/804/1/18, 1404.2613
2. Agertz O, Teyssier R, Moore B (2009) Disc formation and the origin of clumpy galaxies at high redshift. MNRAS 397:L64–L68, DOI 10.1111/j.1745-3933.2009.00685.x, 0901.2536
3. Aguirre A, Dow-Hygelund C, Schaye J, Theuns T (2008) Metallicity of the Intergalactic Medium Using Pixel Statistics. IV. Oxygen. ApJ 689:851-864, DOI 10.1086/592554, 0712.1239
4. Altay G, Theuns T, Schaye J, Crighton NHM, Dalla Vecchia C (2011) Through Thick and Thin–H I Absorption in Cosmological Simulations. ApJL 737:L37, DOI 10.1088/2041-8205/737/2/L37, 1012.4014
5. Altay G, Theuns T, Schaye J, Booth CM, Dalla Vecchia C (2013) The impact of different physical processes on the statistics of Lyman-limit and damped Lyman α absorbers. MNRAS 436:2689–2707, DOI 10.1093/mnras/stt1765, 1307.6879
6. Bacon R, Brinchmann J, Richard J, Contini T, Drake A, Franx M, Tacchella S, Vernet J, Wisotzki L, Blaizot J, Bouché N, Bouwens R, Cantalupo S, Carollo CM, Carton D, Caruana J, Clément B, Dreizler S, Epinat B, Guiderdoni B, Herenz C, Husser TO, Kamann S, Kerutt J, Kollatschny W, Krajnovic D, Lilly S, Martinsson T, Michel-Dansac L, Patricio V, Schaye J, Shirazi M, Soto K, Soucail G, Steinmetz M, Urrutia T, Weilbacher P, de Zeeuw T (2015) The MUSE 3D view of the Hubble Deep Field South. A&A 575:A75, DOI 10.1051/0004-6361/201425419, 1411.7667
7. Baker AJ , Tacconi LJ, Genzel R, Lehnert MD, Lutz D (2004) Molecular Gas in the Lensed Lyman Break Galaxy cB58. ApJ 604:125–140, DOI 10.1086/381798, astro-ph/0312099
8. Balestra I, Tozzi P, Ettori S, Rosati P, Borgani S, Mainieri V, Norman C, Viola M (2007) Tracing the evolution in the iron content of the intra-cluster medium. A&A 462:429–442, DOI 10.1051/0004-6361:20065568, astro-ph/0609664
9. Beckwith SVW, Stiavelli M, Koekemoer AM, Caldwell JAR, Ferguson HC, Hook R, Lucas RA, Bergeron LE, Corbin M, Jogee S, Panagia N, Robberto M, Royle P, Somerville RS, Sosey M (2006) The Hubble Ultra Deep Field. AJ 132:1729–1755, DOI 10.1086/507302, astro-ph/0607632
10. Bergeron J, Boissé P (1991) A sample of galaxies giving rise to Mg II quasar absorption systems. A&A 243:344–366
11. Bergeron J, Stasińska G (1986) Absorption line systems in QSO spectra - Properties derived from observations and from photoionization models. A&A 169:1–13
12. Bigiel F, Leroy A, Walter F, Brinks E, de Blok WJG, Madore B, Thornley MD (2008) The Star Formation Law in Nearby Galaxies on Sub-Kpc Scales. AJ 136:2846–2871, DOI 10.1088/0004-6256/136/6/2846, 0810.2541
13. Bigiel F, Leroy A, Walter F, Blitz L, Brinks E, de Blok WJG, Madore B (2010) Extremely Inefficient Star Formation in the Outer Disks of Nearby Galaxies. AJ 140:1194–1213, DOI 10.1088/0004-6256/140/5/1194, 1007.3498
14. Bird S, Vogelsberger M, Haehnelt M, Sijacki D, Genel S, Torrey P, Springel V, Hernquist L (2014) Damped Lyman α absorbers as a probe of stellar feedback. MNRAS 445:2313–2324, DOI 10.1093/mnras/stu1923, 1405.3994
15. Boksenberg A, Sargent WLW (2015) Properties of QSO Metal-line Absorption Systems at High Redshifts: Nature and Evolution of the Absorbers and New Evidence on Escape of Ionizing Radiation from Galaxies. ApJS 218:7, DOI 10.1088/0067-0049/218/1/7, 1410.3784
16. Bordoloi R, Lilly SJ, Knobel C, Bolzonella M, Kampczyk P, Carollo CM, Iovino A, Zucca E, Contini T, Kneib JP, Le Fevre O, Mainieri V, Renzini A, Scodeggio M, Zamorani G, Balestra I, Bardelli S, Bongiorno A, Caputi K, Cucciati O, de la Torre S, de Ravel L, Garilli B, Kovač K, Lamareille F, Le Borgne JF, Le Brun V, Maier C, Mignoli M, Pello R, Peng Y, Perez Montero E, Presotto V, Scarlata C, Silverman J, Tanaka M, Tasca L, Tresse L, Vergani D, Barnes L, Cappi A, Cimatti A, Coppa G, Diener C, Franzetti P, Koekemoer A, López-Sanjuan C, McCracken HJ, Moresco M, Nair P, Oesch P, Pozzetti L, Welikala N (2011) The Radial and Azimuthal Profiles of Mg II Absorption around 0.5 < z < 0.9 zCOSMOS Galaxies of Different Colors, Masses, and Environments. ApJ 743:10, DOI 10.1088/0004-637X/743/1/10, 1106.0616
17. Borisova E, Cantalupo S, Lilly SJ, Marino RA, Gallego SG, Bacon R, Blaizot J, Bouché N, Brinchmann J, Carollo CM, Caruana J, Finley H, Herenz EC, Richard J, Schaye J, Straka LA, Turner ML, Urrutia T, Verhamme A, Wisotzki L (2016) Ubiquitous giant Ly α nebulae around the brightest quasars at z ∼3.5 revealed with MUSE. ArXiv e-prints 1605.01422
18. Borthakur S, Heckman T, Strickland D, Wild V, Schiminovich D (2013) The Impact of Starbursts on the Circumgalactic Medium. ApJ 768:18, DOI 10.1088/0004-637X/768/1/18, 1303.1183
19. Bouché N, Hohensee W, Vargas R, Kacprzak GG, Martin CL, Cooke J, Churchill CW (2012) Physical properties of galactic winds using background quasars. MNRAS 426:801–815, DOI 10.1111/j.1365-2966.2012.21114.x, 1110.5877
20. Bowen DV, Chelouche D, Jenkins EB, Tripp TM, Pettini M, York DG, Frye BL (2016) The Structure of the Circumgalactic Medium of Galaxies: Cool Accretion Inflow Around NGC 1097. ApJ 826:50, DOI 10.3847/0004-637X/826/1/50, 1605.04907
21. Braun R (2012) Cosmological Evolution of Atomic Gas and Implications for 21 cm H I Absorption. AApJ 749:87, DOI 10.1088/0004-637X/749/1/87, 1202.1840
22. Bresolin F, Kennicutt RC, Ryan-Weber E (2012) Gas Metallicities in the Extended Disks of NGC 1512 and NGC 3621. Chemical Signatures of Metal Mixing or Enriched Gas Accretion? ApJ 750:122, DOI 10.1088/0004-637X/750/2/122, 1203.0956
23. Broeils AH, Rhee MH (1997) Short 21-cm WSRT observations of spiral and irregular galaxies. HI properties. A&A 324:877–887
24. Burbidge EM, Burbidge GR (1961) Recent investigations of groups and clusters of galaxies. AJ 66:541–550, DOI 10.1086/108461
25. Cantalupo S (2010) Stars quenching stars: how photoionization by local sources regulates gas cooling and galaxy formation. MNRAS 403:L16–L20, DOI 10.1111/j.1745-3933.2010.00806.x, 0912.4149
26. Cantalupo S, Arrigoni-Battaia F, Prochaska JX, Hennawi JF, Madau P (2014) A cosmic web filament revealed in Lyman-α emission around a luminous high-redshift quasar. Nature 506:63–66, DOI 10.1038/nature12898, 1401.4469
27. Cazaux S, Spaans M (2004) Molecular Hydrogen Formation on Dust Grains in the High-Redshift Universe. ApJ 611:40–51, DOI 10.1086/422087, astro-ph/0404340
28. Chen HW (2012) The unchanging circumgalactic medium over the past 11 billion years. MNRAS 427:1238–1244, DOI 10.1111/j.1365-2966.2012.22053.x, 1209.1094
29. Chen HW, Lanzetta KM (2003) The Nature of Damped Lyα Absorbing Galaxies at z <= 1: A Photometric Redshift Survey of Damped Lyα Absorbers. ApJ 597:706–729, DOI 10.1086/378635, astro-ph/0308190
30. Chen HW, Prochaska JX (2000) The Origin of a Chemically Enriched Lyα Absorption System at Z = 0.167. ApJL 543:L9–L13, DOI 10.1086/318179, astro-ph/0009001
31. Chen HW, Tinker JL (2008) The Baryon Content of Dark Matter Halos: Empirical Constraints from Mg II Absorbers. ApJ 687:745-756, DOI 10.1086/591927, 0801.2169
32. Chen HW, Kennicutt RC Jr, Rauch M (2005) Abundance Profiles and Kinematics of Damped Lyα Absorbing Galaxies at z < 0.651. ApJ 620:703–722, DOI 10.1086/427088, astro-ph/0411006
33. Chen HW, Perley DA, Pollack LK, Prochaska JX, Bloom JS, Dessauges-Zavadsky M, Pettini M, Lopez S, Dall'aglio A, Becker GD (2009) High-Redshift Starbursting Dwarf Galaxies Revealed by γ-Ray Burst Afterglows. ApJ 691:152–174, DOI 10.1088/0004-637X/691/1/152, 0809.2608
34. Chen HW, Helsby JE, Gauthier JR, Shectman SA, Thompson IB, Tinker JL (2010a) An Empirical Characterization of Extended Cool Gas Around Galaxies Using Mg II Absorption Features. ApJ 714:1521–1541, DOI 10.1088/0004-637X/714/2/1521, 1004.0705
35. Chen HW, Wild V, Tinker JL, Gauthier JR, Helsby JE, Shectman SA, Thompson IB (2010b) What Determines the Incidence and Extent of Mg II Absorbing Gas Around Galaxies? ApJL 724:L176–L182, DOI 10.1088/2041-8205/724/2/L176, 1011.0735
36. Chen HW, Gauthier JR, Sharon K, Johnson SD, Nair P, Liang CJ (2014) Spatially resolved velocity maps of halo gas around two intermediate-redshift galaxies. MNRAS 438:1435–1450, DOI 10.1093/mnras/stt2288, 1312.0016
37. Christensen L, Wisotzki L, Roth MM, Sánchez SF, Kelz A, Jahnke K (2007) An integral field spectroscopic survey for high redshift damped Lyman-α galaxies. A&A 468:587–601, DOI 10.1051/0004-6361:20066410, 0704.0654
38. Christensen L, Møller P, Fynbo JPU, Zafar T (2014) Verifying the mass-metallicity relation in damped Lyman α selected galaxies at 0.1 < z < 3.2. MNRAS 445:225–238, DOI 10.1093/mnras/stu1726, 1404.6529
39. Chynoweth KM, Langston GI, Yun MS, Lockman FJ, Rubin KHR, Scoles SA (2008) Neutral Hydrogen Clouds in the M81/M82 Group. AJ 135:1983–1992, DOI 10.1088/0004-6256/135/6/1983, 0803.3631
40. Cooke J, Wolfe AM, Gawiser E, Prochaska JX (2006) Survey for Galaxies Associated with z ~ 3 Damped Lyα Systems. II. Galaxy-Absorber Correlation Functions. ApJ 652:994–1010, DOI 10.1086/507476, astro-ph/0607149
41. Crighton NHM, Murphy MT, Prochaska JX, Worseck G, Rafelski M, Becker GD, Ellison SL, Fumagalli M, Lopez S, Meiksin A, O'Meara JM (2015) The neutral hydrogen cosmological mass density at z = 5. MNRAS 452:217–234, DOI 10.1093/mnras/stv1182, 1506.02037
42. Davies R, Förster Schreiber NM, Cresci G, Genzel R, Bouché N, Burkert A, Buschkamp P, Genel S, Hicks E, Kurk J, Lutz D, Newman S, Shapiro K, Sternberg A, Tacconi LJ, Wuyts S (2011) How Well Can We Measure the Intrinsic Velocity Dispersion of Distant Disk Galaxies? ApJ 741:69, DOI 10.1088/0004-637X/741/2/69, 1108.0285
43. Davis JD, Keeney BA, Danforth CW, Stocke JT (2015) On the Size and Mass of Photoionized Clouds in Extended Spiral Galaxy Halos. ApJ 810:92, DOI 10.1088/0004-637X/810/2/92, 1506.04095
44. Decarli R, Walter F, Aravena M, Carilli C, Bouwens R, da Cunha E, Daddi E, Ivison RJ, Popping G, Riechers D, Smail I, Swinbank M, Weiss A, Anguita T, Assef R, Bauer F, Bell EF, Bertoldi F, Chapman S, Colina L, Cortes PC, Cox P, Dickinson M, Elbaz D, Gónzalez-López J, Ibar E, Infante L, Hodge J, Karim A, Le Fevre O, Magnelli B, Neri R, Oesch P, Ota K, Rix HW, Sargent M, Sheth K, van der Wel A, van der Werf P, Wagg J (2016) ALMA spectroscopic survey in the Hubble Ultra Deep Field: CO luminosity functions and the evolution of the cosmic density of molecular gas. ArXiv e-prints 1607.06770
45. Dessauges-Zavadsky M, D'Odorico S, Schaerer D, Modigliani A, Tapken C, Vernet J (2010) Rest-frame ultraviolet spectrum of the gravitationally lensed galaxy “the 8 o'clock arc”: stellar and interstellar medium properties. A&A 510:A26, DOI 10.1051/0004-6361/200913337, 0912.4384
46. Diamond-Stanic AM, Coil AL, Moustakas J, Tremonti CA, Sell PH, Mendez AJ , Hickox RC, Rudnick GH (2016) Galaxies Probing Galaxies at High Resolution: Co-rotating Gas Associated with a Milky Way Analog at z = 0.4. ApJ 824:24, DOI 10.3847/0004-637X/824/1/24, 1507.01945
47. D'Odorico V, Cristiani S, Pomante E, Carswell RF, Viel M, Barai P, Becker GD, Calura F, Cupani G, Fontanot F, Haehnelt MG, Kim TS, Miralda-Escudé J, Rorai A, Tescari E, Vanzella E (2016) Metals in the z ∼ 3 intergalactic medium: results from an ultra-high signal-to-noise ratio UVES quasar spectrum. MNRAS DOI 10.1093/mnras/stw2161, 1608.06116
48. Elmegreen BG (1989) A pressure and metallicity dependence for molecular cloud correlations and the calibration of mass. ApJ 338:178–196, DOI 10.1086/167192
49. Elmegreen BG (1993) The H to H2 transition in galaxies - Totally molecular galaxies. ApJ 411:170–177, DOI 10.1086/172816
50. Erb DK, Shapley AE, Pettini M, Steidel CC, Reddy NA, Adelberger KL (2006a) The Mass-Metallicity Relation at z > ~2. ApJ 644:813–828, DOI 10.1086/503623, astro-ph/0602473
51. Erb DK, Steidel CC, Shapley AE, Pettini M, Reddy NA, Adelberger KL (2006b) Hα Observations of a Large Sample of Galaxies at z ~ 2: Implications for Star Formation in High-Redshift Galaxies. ApJ 647:128–139, DOI 10.1086/505341, astro-ph/0604388
52. Erkal D, Gnedin NY, Kravtsov AV (2012) On the Origin of the High Column Density Turnover in the H I Column Density Distribution. ApJ 761:54, DOI 10.1088/0004-637X/761/1/54, 1201.3653
53. Faucher-Giguère CA, Kereš D (2011) The small covering factor of cold accretion streams. MNRAS 412:L118–L122, DOI 10.1111/j.1745-3933.2011.01018.x, 1011.1693
54. Fernández X, van Gorkom JH, Hess KM, Pisano DJ, Kreckel K, Momjian E, Popping A, Oosterloo T, Chomiuk L, Verheijen MAW, Henning PA, Schiminovich D, Bershady MA, Wilcots EM, Scoville N (2013) A Pilot for a Very Large Array H I Deep Field. ApJL 770:L29, DOI 10.1088/2041-8205/770/2/L29, 1303.2659
55. Förster Schreiber NM, Genzel R, Bouché N, Cresci G, Davies R, Buschkamp P, Shapiro K, Tacconi LJ, Hicks EKS, Genel S, Shapley AE, Erb DK, Steidel CC, Lutz D, Eisenhauer F, Gillessen S, Sternberg A, Renzini A, Cimatti A, Daddi E, Kurk J, Lilly S, Kong X, Lehnert MD, Nesvadba N, Verma A, McCracken H, Arimoto N, Mignoli M, Onodera M (2009) The SINS Survey: SINFONI Integral Field Spectroscopy of z ~ 2 Star-forming Galaxies. ApJ 706:1364–1428, DOI 10.1088/0004-637X/706/2/1364, 0903.1872
56. Friis M, De Cia A, Krühler T, Fynbo JPU, Ledoux C, Vreeswijk PM, Watson DJ, Malesani D, Gorosabel J, Starling RLC, Jakobsson P, Varela K, Wiersema K, Drachmann AP, Trotter A, Thöne CC, de Ugarte Postigo A, D'Elia V, Elliott J, Maturi M, Goldoni P, Greiner J, Haislip J, Kaper L, Knust F, LaCluyze A, Milvang-Jensen B, Reichart D, Schulze S, Sudilovsky V, Tanvir N, Vergani SD (2015) The warm, the excited, and the molecular gas: GRB 121024A shining through its star-forming galaxy. MNRAS 451:167–183, DOI 10.1093/mnras/stv960, 1409.6315
57. Fumagalli M, Prochaska JX, Kasen D, Dekel A, Ceverino D, Primack JR (2011) Absorption-line systems in simulated galaxies fed by cold streams. MNRAS 418:1796–1821, DOI 10.1111/j.1365-2966.2011.19599.x, 1103.2130
58. Fumagalli M, O'Meara JM, Prochaska JX, Rafelski M, Kanekar N (2015) Directly imaging damped Ly α galaxies at z > 2 - III. The star formation rates of neutral gas reservoirs at z ∼ 2.7. MNRAS 446:3178–3198, DOI 10.1093/mnras/stu2325, 1409.2880
59. Gallazzi A, Brinchmann J, Charlot S, White SDM (2008) A census of metals and baryons in stars in the local Universe. MNRAS 383:1439–1458, DOI 10.1111/j.1365-2966.2007.12632.x, 0708.0533
60. Gauthier JR, Chen HW (2012) Empirical constraints of supergalactic winds at z ≳ 0.5. MNRAS 424:1952–1962, DOI 10.1111/j.1365-2966.2012.21327.x, 1205.4037
61. Genzel R, Tacconi LJ, Gracia-Carpio J, Sternberg A, Cooper MC, Shapiro K, Bolatto A, Bouché N, Bournaud F, Burkert A, Combes F, Comerford J, Cox P, Davis M, Schreiber NMF, Garcia-Burillo S, Lutz D, Naab T, Neri R, Omont A, Shapley A, Weiner B (2010) A study of the gas-star formation relation over cosmic time. MNRAS 407:2091–2108, DOI 10.1111/j.1365-2966.2010.16969.x, 1003.5180
62. Giovanelli R, Haynes MP, Adams EAK, Cannon JM, Rhode KL, Salzer JJ, Skillman ED, Bernstein-Cooper EZ, McQuinn KBW (2013) ALFALFA Discovery of the Nearby Gas-rich Dwarf Galaxy Leo P. I. H I Observations. AJ 146:15, DOI 10.1088/0004-6256/146/1/15, 1305.0272
63. Gnat O, Sternberg A (2007) Time-dependent Ionization in Radiatively Cooling Gas. ApJS 168:213–230, DOI 10.1086/509786, astro-ph/0608181
64. Gnedin NY, Draine BT (2014) Line Overlap and Self-Shielding of Molecular Hydrogen in Galaxies. ApJ 795:37, DOI 10.1088/0004-637X/795/1/37, 1406.4129
65. Gnedin NY, Kravtsov AV (2010) On the Kennicutt-Schmidt Relation of Low-Metallicity High-Redshift Galaxies. ApJ 714:287–295, DOI 10.1088/0004-637X/714/1/287, 0912.3005
66. Gnedin NY, Tassis K, Kravtsov AV (2009) Modeling Molecular Hydrogen and Star Formation in Cosmological Simulations. ApJ 697:55–67, DOI 10.1088/0004-637X/697/1/55, 0810.4148
67. Graciá-Carpio J, García-Burillo S, Planesas P, Fuente A, Usero A (2008) Evidence of enhanced star formation efficiency in luminous and ultraluminous infrared galaxies. A&A 479:703–717, DOI 10.1051/0004-6361:20078223, 0712.0582
68. Heckman TM, Armus L, Miley GK (1990) On the nature and implications of starburst-driven galactic superwinds. ApJS 74:833–868, DOI 10.1086/191522
69. Heckman TM, Norman CA, Strickland DK, Sembach KR (2002) On the Physical Origin of O VI Absorption-Line Systems. ApJ 577:691–700, DOI 10.1086/342232, astro-ph/0205556
70. Hopkins AM, Rao SM, Turnshek DA (2005) The Star Formation History of Damped Lyα Absorbers. ApJ 630:108–114, DOI 10.1086/432046, astro-ph/0505418
71. Huang YH, Chen HW, Johnson SD, Weiner BJ (2016) Characterizing the chemically enriched circumgalactic medium of ∼38 000 luminous red galaxies in SDSS DR12. MNRAS 455:1713–1727, DOI 10.1093/mnras/stv2327, 1510.01336
72. Johnson SD, Chen HW, Mulchaey JS (2015) On the possible environmental effect in distributing heavy elements beyond individual gaseous haloes. MNRAS 449:3263–3273, DOI 10.1093/mnras/stv553, 1503.04199
73. Jorgenson RA, Wolfe AM (2014) Spatially Resolved Emission of a High-redshift DLA Galaxy with the Keck/OSIRIS IFU. ApJ 785:16, DOI 10.1088/0004-637X/785/1/16, 1311.0045
74. Jorgenson RA, Murphy MT, Thompson R, Carswell RF (2014) The Magellan uniform survey of damped Lyman α systems - II. Paucity of strong molecular hydrogen absorption. MNRAS 443:2783–2800, DOI 10.1093/mnras/stu1314, 1407.1111
75. Kacprzak GG, Churchill CW, Steidel CC, Murphy MT (2008) Halo Gas Cross Sections and Covering Fractions of Mg II Absorption Selected Galaxies. AJ 135:922-927, DOI 10.1088/0004-6256/135/3/922, 0710.5765
76. Kacprzak GG, Murphy MT, Churchill CW (2010) Galaxy group at z = 0.3 associated with the damped Lyman α system towards quasar Q1127-145. MNRAS 406:445–459, DOI 10.1111/j.1365-2966.2010.16667.x, 1003.3669
77. Kacprzak GG, Martin CL, Bouché N, Churchill CW, Cooke J, LeReun A, Schroetter I, Ho SH, Klimek E (2014) New Perspective on Galaxy Outflows from the First Detection of Both Intrinsic and Traverse Metal-line Absorption. ApJL 792:L12, DOI 10.1088/2041-8205/792/1/L12, 1407.4126
78. Kacprzak GG, Muzahid S, Churchill CW, Nielsen NM, Charlton JC (2015) The Azimuthal Dependence of Outflows and Accretion Detected Using O VI Absorption. ApJ 815:22, DOI 10.1088/0004-637X/815/1/22, 1511.03275
79. Karachentsev ID, Kashibadze OG (2006) Masses of the local group and of the M81 group estimated from distortions in the local velocity field. Astrophysics 49:3–18, DOI 10.1007/s10511-006-0002-6
80. Keeney BA, Stocke JT, Rosenberg JL, Danforth CW, Ryan-Weber EV, Shull JM, Savage BD, Green JC (2013) HST/COS Spectra of Three QSOs That Probe the Circumgalactic Medium of a Single Spiral Galaxy: Evidence for Gas Recycling and Outflow. ApJ 765:27, DOI 10.1088/0004-637X/765/1/27, 1301.4242
81. Kennicutt RC Jr (1998) The Global Schmidt Law in Star-forming Galaxies. ApJ 498:541–552, DOI 10.1086/305588, astro-ph/9712213
82. Kereš D, Katz N, Fardal M, Davé R, Weinberg DH (2009) Galaxies in a simulated ΛCDM Universe - I. Cold mode and hot cores. MNRAS 395:160–179, DOI 10.1111/j.1365-2966.2009.14541.x, 0809.1430
83. Kim TS, Partl AM, Carswell RF, Müller V (2013) The evolution of H I and C IV quasar absorption line systems at 1.9 < z < 3.2. A&A 552:A77, DOI 10.1051/0004-6361/201220042, 1302.6622
84. Krogager JK, Fynbo JPU, Møller P, Ledoux C, Noterdaeme P, Christensen L, Milvang-Jensen B, Sparre M (2012) On the sizes of z ≳ 2 damped Lyα absorbing galaxies. MNRAS 424:L1–L5, DOI 10.1111/j.1745-3933.2012.01272.x, 1204.2833
85. Krühler T, Ledoux C, Fynbo JPU, Vreeswijk PM, Schmidl S, Malesani D, Christensen L, De Cia A, Hjorth J, Jakobsson P, Kann DA, Kaper L, Vergani SD, Afonso PMJ, Covino S, de Ugarte Postigo A, D'Elia V, Filgas R, Goldoni P, Greiner J, Hartoog OE, Milvang-Jensen B, Nardini M, Piranomonte S, Rossi A, Sánchez-Ramírez R, Schady P, Schulze S, Sudilovsky V, Tanvir NR, Tagliaferri G, Watson DJ, Wiersema K, Wijers RAMJ, Xu D (2013) Molecular hydrogen in the damped Lyman α system towards GRB 120815A at z = 2.36. A&A 557:A18, DOI 10.1051/0004-6361/201321772, 1304.7003
86. Krumholz MR, McKee CF, Tumlinson J (2009) The Atomic-to-Molecular Transition in Galaxies. II: H I and H₂ Column Densities. ApJ 693:216–235, DOI 10.1088/0004-637X/693/1/216, 0811.0004
87. Lanzetta KM, Wolfe AM, Turnshek DA, Lu L, McMahon RG, Hazard C (1991) A new spectroscopic survey for damped Ly-alpha absorption lines from high-redshift galaxies. ApJS 77:1–57, DOI 10.1086/191596
88. Lanzetta KM, Yahata N, Pascarelle S, Chen HW, Fernández-Soto A (2002) The Star Formation Rate Intensity Distribution Function: Implications for the Cosmic Star Formation Rate History of the Universe. ApJ 570:492–501, DOI 10.1086/339774, astro-ph/0111129
89. Law DR, Steidel CC, Erb DK, Larkin JE, Pettini M, Shapley AE, Wright SA (2007) Integral Field Spectroscopy of High-Redshift Star-forming Galaxies with Laser-guided Adaptive Optics: Evidence for Dispersion-dominated Kinematics. ApJ 669:929–946, DOI 10.1086/521786, 0707.3634
90. Law DR, Steidel CC, Shapley AE, Nagy SR, Reddy NA, Erb DK (2012) An HST/WFC3-IR Morphological Survey of Galaxies at z = 1.5-3.6. I. Survey Description and Morphological Properties of Star-forming Galaxies. ApJ 745:85, DOI 10.1088/0004-637X/745/1/85, 1107.3137
91. Ledoux C, Vreeswijk PM, Smette A, Fox AJ, Petitjean P, Ellison SL, Fynbo JPU, Savaglio S (2009) Physical conditions in high-redshift GRB-DLA absorbers observed with VLT/UVES: implications for molecular hydrogen searches. A&A 506:661–675, DOI 10.1051/0004-6361/200811572, 0907.1057
92. Lehner N, Howk JC, Wakker BP (2015) Evidence for a Massive, Extended Circumgalactic Medium Around the Andromeda Galaxy. ApJ 804:79, DOI 10.1088/0004-637X/804/2/79, 1404.6540
93. Lehnert MD, Heckman TM, Weaver KA (1999) Very Extended X-Ray and Hα Emission in M82: Implications for the Superwind Phenomenon. ApJ 523:575–584, DOI 10.1086/307762, astro-ph/9904227
94. Leroy AK, Walter F, Brinks E, Bigiel F, de Blok WJG, Madore B, Thornley MD (2008) The Star Formation Efficiency in Nearby Galaxies: Measuring Where Gas Forms Stars Effectively. AJ 136:2782–2845, DOI 10.1088/0004-6256/136/6/2782, 0810.2556
95. Leroy AK, Bolatto A, Gordon K, Sandstrom K, Gratier P, Rosolowsky E, Engelbracht CW, Mizuno N, Corbelli E, Fukui Y, Kawamura A (2011) The CO-to-H₂ Conversion Factor from Infrared Dust Emission across the Local Group. ApJ 737:12, DOI 10.1088/0004-637X/737/1/12, 1102.4618
96. Liang CJ, Chen HW (2014) Mining circumgalactic baryons in the low-redshift universe. MNRAS 445:2061–2081, DOI 10.1093/mnras/stu1901, 1402.3602
97. Lockman FJ, Free NL, Shields JC (2012) The Neutral Hydrogen Bridge between M31 and M33. AJ 144:52, DOI 10.1088/0004-6256/144/2/52, 1205.5235
98. Lopez S, D'Odorico V, Ellison SL, Becker GD, Christensen L, Cupani G, Denney KD, Paris I, Worseck G, Berg TAM, Cristiani S, Dessauges-Zavadsky M, Haehnelt M, Hamann F, Hennawi J, Irsic V, Kim TS, Lopez P, Saust RL, Menard B, Perrotta S, Prochaska JX, Sanchez-Ramirez R, Vestergaard M, Viel M, Wisotzki L (2016) XQ-100: A legacy survey of one hundred 3.5 < z < 4.5 quasars observed with VLT/XSHOOTER. ArXiv e-prints 1607.08776
99. Lu L, Sargent WLW, Barlow TA, Churchill CW, Vogt SS (1996) Abundances at High Redshifts: The Chemical Enrichment History of Damped Ly alpha Galaxies. ApJS 107:475, DOI 10.1086/192373, astro-ph/9606044
100. Madau P, Dickinson M (2014) Cosmic Star-Formation History. ARA&A 52:415–486, DOI 10.1146/annurev-astro-081811-125615, 1403.0007
101. Maiolino R, Nagao T, Grazian A, Cocchia F, Marconi A, Mannucci F, Cimatti A, Pipino A, Ballero S, Calura F, Chiappini C, Fontana A, Granato GL, Matteucci F, Pastorini G, Pentericci L, Risaliti G, Salvati M, Silva L (2008) AMAZE. I. The evolution of the mass-metallicity relation at z > 3. A&A 488:463–479, DOI 10.1051/0004-6361:200809678, 0806.2410
102. Mannucci F, Cresci G, Maiolino R, Marconi A, Pastorini G, Pozzetti L, Gnerucci A, Risaliti G, Schneider R, Lehnert M, Salvati M (2009) LSD: Lyman-break galaxies Stellar populations and Dynamics - I. Mass, metallicity and gas at z ~ 3.1. MNRAS 398:1915–1931, DOI 10.1111/j.1365-2966.2009.15185.x, 0902.2398
103. Marasco A, Crain RA, Schaye J, Bahé YM, van der Hulst T, Theuns T, Bower RG (2016) The environmental dependence of H I in galaxies in the EAGLE simulations. MNRAS 461:2630–2649, DOI 10.1093/mnras/stw1498, 1606.06288
104. Martin CL, Kennicutt RC Jr (2001) Star Formation Thresholds in Galactic Disks. ApJ 555:301–321, DOI 10.1086/321452, astro-ph/0103181
105. McGaugh SS (1994) Oxygen abundances in low surface brightness disk galaxies. ApJ 426:135–149, DOI 10.1086/174049, astro-ph/9311064
106. Ménard B, Wild V, Nestor D, Quider A, Zibetti S, Rao S, Turnshek D (2011) Probing star formation across cosmic time with absorption-line systems. MNRAS 417:801–811, DOI 10.1111/j.1365-2966.2011.18227.x, 0912.3263
107. Meyer DM, Welty DE, York DG (1989) Element abundances at high redshift. ApJL 343:L37–L40, DOI 10.1086/185505
108. Møller P, Warren SJ, Fall SM, Fynbo JU, Jakobsen P (2002) Are High-Redshift Damped Lyα Galaxies Lyman Break Galaxies? ApJ 574:51–58, DOI 10.1086/340934, astro-ph/0203361
109. Møller P, Fynbo JPU, Fall SM (2004) Detection of Lyman-α emission from a DLA galaxy: Possible implications for a luminosity-metallicity relation at z = 2-3. A&A 422:L33–L37, DOI 10.1051/0004-6361:20040194, astro-ph/0406307
110. Muzahid S, Srianand R, Charlton J (2015) An HST/COS survey of molecular hydrogen in DLAs & sub-DLAs at z < 1: molecular fraction and excitation temperature. MNRAS 448:2840–2853, DOI 10.1093/mnras/stv133, 1410.3828
111. Neeleman M, Wolfe AM, Prochaska JX, Rafelski M (2013) The Fundamental Plane of Damped Lyα Systems. ApJ 769:54, DOI 10.1088/0004-637X/769/1/54, 1303.7239
112. Neeleman M, Prochaska JX, Ribaudo J, Lehner N, Howk JC, Rafelski M, Kanekar N (2016a) The H I Content of the Universe Over the Past 10 GYRS. ApJ 818:113, DOI 10.3847/0004-637X/818/2/113, 1601.01691
113. Neeleman M, Prochaska JX, Zwaan MA, Kanekar N, Christensen L, Dessauges-Zavadsky M, Fynbo JPU, van Kampen E, Møller P, Zafar T (2016b) First Connection between Cold Gas in Emission and Absorption: CO Emission from a Galaxy-Quasar Pair. ApJL 820:L39, DOI 10.3847/2041-8205/820/2/L39, 1604.05720
114. Nielsen NM, Churchill CW, Kacprzak GG (2013) MAGIICAT II. General Characteristics of the Mg II Absorbing Circumgalactic Medium. ApJ 776:115, DOI 10.1088/0004-637X/776/2/115, 1211.1380
115. Norman CA, Bowen DV, Heckman T, Blades C, Danly L (1996) Hubble Space Telescope Observations of QSO Absorption Lines Associated with Starburst Galaxy Outflows. ApJ 472:73, DOI 10.1086/178042
116. Noterdaeme P, Ledoux C, Petitjean P, Srianand R (2008) Molecular hydrogen in high-redshift damped Lyman-α systems: the VLT/UVES database. A&A 481:327–336, DOI 10.1051/0004-6361:20078780, 0801.3682
117. Noterdaeme P, Petitjean P, Ledoux C, Srianand R (2009) Evolution of the cosmological mass density of neutral gas from Sloan Digital Sky Survey II - Data Release 7. A&A 505:1087–1098, DOI 10.1051/0004-6361/200912768, 0908.1574
118. Noterdaeme P, Petitjean P, Carithers WC, Pâris I, Font-Ribera A, Bailey S, Aubourg E, Bizyaev D, Ebelke G, Finley H, Ge J, Malanushenko E, Malanushenko V, Miralda-Escudé J, Myers AD, Oravetz D, Pan K, Pieri MM, Ross NP, Schneider DP, Simmons A, York DG (2012) Column density distribution and cosmological mass density of neutral gas: Sloan Digital Sky Survey-III Data Release 9. A&A 547:L1, DOI 10.1051/0004-6361/201220259, 1210.1213
119. Noterdaeme P, Petitjean P, Srianand R (2015) The elusive Hi→H₂ transition in high-z damped Lyman-α systems. A&A 578:L5, DOI 10.1051/0004-6361/201526018, 1505.04997
120. Noterdaeme P, Krogager JK, Balashev S, Ge J, Gupta N, Krühler T, Ledoux C, Murphy MT, Pâris I, Petitjean P, Rahmani H, Srianand R, Ubachs W (2016) Discovery of a Perseus-like cloud in the early Universe: HI-to-H2 transition, carbon monoxide and small dust grains at zabs = 2.53 towards the quasar J0000+0048. ArXiv e-prints 1609.01422
121. Oosterloo T, Morganti R, Crocker A, Jütte E, Cappellari M, de Zeeuw T, Krajnović D, McDermid R, Kuntschner H, Sarzi M, Weijmans AM (2010) Early-type galaxies in different environments: an HI view. MNRAS 409:500–514, DOI 10.1111/j.1365-2966.2010.17351.x, 1007.2059
122. Oppenheimer BD, Schaye J (2013) Non-equilibirum ionization and cooling of metal-enriched gas in the presence of a photoionization background. MNRAS 434:1043–1062, DOI 10.1093/mnras/stt1043, 1302.5710
123. Péroux C, Bouché N, Kulkarni VP, York DG, Vladilo G (2011) A SINFONI integral field spectroscopy survey for galaxy counterparts to damped Lyman α systems - I. New detections and limits for intervening and associated absorbers. MNRAS 410:2237–2250, DOI 10.1111/j.1365-2966.2010.17598.x, 1009.0025
124. Péroux C, Bouché N, Kulkarni VP, York DG, Vladilo G (2012) A SINFONI integral field spectroscopy survey for galaxy counterparts to damped Lyman α systems - III. Three additional detections. MNRAS 419:3060–3073, DOI 10.1111/j.1365-2966.2011.19947.x, 1110.0666
125. Péroux C, Quiret S, Rahmani H, Kulkarni VP, Epinat B, Milliard B, Straka LA, York DG, Rahmati A, Contini T (2016) A SINFONI integral field spectroscopy survey for galaxy counterparts to damped Lyman α systems - VI. Metallicity and geometry as gas flow probes. MNRAS 457:903–916, DOI 10.1093/mnras/stw016, 1601.02796
126. Pettini M (2004) Element abundances through the cosmic ages. In: Esteban C, García López R, Herrero A, Sánchez F (eds) Cosmochemistry. The melting pot of the elements, pp 257–298, astro-ph/0303272
127. Pettini M, Boksenberg A, Hunstead RW (1990) Metal enrichment, dust, and star formation in galaxies at high redshifts. I - The Z = 2.3091 absorber toward PHL 957. ApJ 348:48–56, DOI 10.1086/168212
128. Pettini M, Ellison SL, Steidel CC, Bowen DV (1999) Metal Abundances at z < 1.5: Fresh Clues to the Chemical Enrichment History of Damped Lyα Systems. ApJ 510:576–589, DOI 10.1086/306635, astro-ph/9808017
129. Pettini M, Shapley AE, Steidel CC, Cuby JG, Dickinson M, Moorwood AFM, Adelberger KL, Giavalisco M (2001) The Rest-Frame Optical Spectra of Lyman Break Galaxies: Star Formation, Extinction, Abundances, and Kinematics. ApJ 554:981–1000, DOI 10.1086/321403, astro-ph/0102456
130. Pettini M, Rix SA, Steidel CC, Adelberger KL, Hunt MP, Shapley AE (2002) New Observations of the Interstellar Medium in the Lyman Break Galaxy MS 1512-cB58. ApJ 569:742–757, DOI 10.1086/339355, astro-ph/0110637
131. Prochaska JX, Tumlinson J (2009) Baryons: What, When and Where? Astrophysics and Space Science Proceedings 10:419, DOI 10.1007/978-1-4020-9457-6_16, 0805.4635
132. Prochaska JX, Wolfe AM (1996) A Keck HIRES Investigation of the Metal Abundances and Kinematics of the Z = 2.46 Damped LY alpha System toward Q0201+365. ApJ 470:403, DOI 10.1086/177875, astro-ph/9604042
133. Prochaska JX, Wolfe AM (1999) Chemical Abundances of the Damped Lyα Systems at z > 1.5. ApJS 121:369–415, DOI 10.1086/313200, astro-ph/9810381
134. Prochaska JX, Wolfe AM (2009) On the (Non)Evolution of H I Gas in Galaxies Over Cosmic Time. ApJ 696:1543–1547, DOI 10.1088/0004-637X/696/2/1543, 0811.2003
135. Prochaska JX, Howk JC, O'Meara JM, Tytler D, Wolfe AM, Kirkman D, Lubin D, Suzuki N (2002) The UCSD HIRES/Keck I Damped Lyα Abundance Database. III. An Empirical Study of Photoionization in the Damped Lyα System toward GB 1759+7539. ApJ 571:693–711, DOI 10.1086/340066, astro-ph/0202140
136. Prochaska JX, Sheffer Y, Perley DA, Bloom JS, Lopez LA, Dessauges-Zavadsky M, Chen HW, Filippenko AV, Ganeshalingam M, Li W, Miller AA, Starr D (2009) The First Positive Detection of Molecular Gas in a GRB Host Galaxy. ApJL 691:L27–L32, DOI 10.1088/0004-637X/691/1/L27, 0901.0556
137. Putman ME, Peek JEG, Joung MR (2012) Gaseous Galaxy Halos. ARA&A 50:491–529, DOI 10.1146/annurev-astro-081811-125612, 1207.4837
138. Rafelski M, Wolfe AM, Chen HW (2011) Star Formation from DLA Gas in the Outskirts of Lyman Break Galaxies at z ~ 3. ApJ 736:48, DOI 10.1088/0004-637X/736/1/48, 1011.6390
139. Rafelski M, Wolfe AM, Prochaska JX, Neeleman M, Mendez AJ (2012) Metallicity Evolution of Damped Lyα Systems Out to z ~ 5. ApJ 755:89, DOI 10.1088/0004-637X/755/2/89, 1205.5047
140. Rafelski M, Neeleman M, Fumagalli M, Wolfe AM, Prochaska JX (2014) The Rapid Decline in Metallicity of Damped Lyα Systems at z ~ 5. ApJL 782:L29, DOI 10.1088/2041-8205/782/2/L29, 1310.6042
141. Rafelski M, Gardner JP, Fumagalli M, Neeleman M, Teplitz HI, Grogin N, Koekemoer AM, Scarlata C (2016) The Star Formation Rate Efficiency of Neutral Atomic-dominated Hydrogen Gas in the Outskirts of Star-forming Galaxies from z ~ 1 to z ~ 3. ApJ 825:87, DOI 10.3847/0004-637X/825/2/87, 1604.08597
142. Rao SM, Nestor DB, Turnshek DA, Lane WM, Monier EM, Bergeron J (2003) Low-Redshift Damped Lyα Galaxies toward the Quasars B2 0827+243, PKS 0952+179, PKS 1127-145, and PKS 1629+120. ApJ 595:94–108, DOI 10.1086/377331, astro-ph/0211297
143. Rao SM, Turnshek DA, Nestor DB (2006) Damped Lyα Systems at z < 1.65: The Expanded Sloan Digital Sky Survey Hubble Space Telescope Sample. ApJ 636:610–630, DOI 10.1086/498132, astro-ph/0509469
144. Rao SM, Belfort-Mihalyi M, Turnshek DA, Monier EM, Nestor DB, Quider A (2011) A ground-based imaging study of galaxies causing damped Lyman α (DLA), sub-DLA and Lyman limit system absorption in quasar spectra. MNRAS 416:1215–1249, DOI 10.1111/j.1365-2966.2011.19119.x, 1103.4047
145. Rauch M (1998) The Lyman Alpha Forest in the Spectra of QSOs. ARA&A 36:267–316, DOI 10.1146/annurev.astro.36.1.267, astro-ph/9806286
146. Rauch M, Sargent WLW, Womble DS, Barlow TA (1996) Temperature and Kinematics of C IV Absorption Systems. ApJL 467:L5, DOI 10.1086/310187, astro-ph/9606041
147. Reddy NA, Pettini M, Steidel CC, Shapley AE, Erb DK, Law DR (2012) The Characteristic Star Formation Histories of Galaxies at Redshifts z ~ 2-7. ApJ 754:25, DOI 10.1088/0004-637X/754/1/25, 1205.0555
148. Rémy-Ruyer A, Madden SC, Galliano F, Galametz M, Takeuchi TT, Asano RS, Zhukovska S, Lebouteiller V, Cormier D, Jones A, Bocchio M, Baes M, Bendo GJ, Boquien M, Boselli A, DeLooze I, Doublier-Pritchard V, Hughes T, Karczewski OŁ, Spinoglio L (2014) Gas-to-dust mass ratios in local galaxies over a 2 dex metallicity range. A&A 563:A31, DOI 10.1051/0004-6361/201322803, 1312.3442
149. Richards GT, Strauss MA, Fan X, Hall PB, Jester S, Schneider DP, Vanden Berk DE, Stoughton C, Anderson SF, Brunner RJ, Gray J, Gunn JE, Ivezić Ž, Kirkland MK, Knapp GR, Loveday J, Meiksin A, Pope A, Szalay AS, Thakar AR, Yanny B, York DG, Barentine JC, Brewington HJ, Brinkmann J, Fukugita M, Harvanek M, Kent SM, Kleinman SJ, Krzesiński J, Long DC, Lupton RH, Nash T, Neilsen EH Jr, Nitta A, Schlegel DJ, Snedden SA (2006) The Sloan Digital Sky Survey Quasar Survey: Quasar Luminosity Function from Data Release 3. AJ 131:2766–2787, DOI 10.1086/503559, astro-ph/0601434
150. Rigby JR, Charlton JC, Churchill CW (2002) The Population of Weak Mg II Absorbers. II. The Properties of Single-Cloud Systems. ApJ 565:743–761, DOI 10.1086/324723, astro-ph/0110191
151. Rubin KHR, Prochaska JX, Ménard B, Murray N, Kasen D, Koo DC, Phillips AC (2011) Low-ionization Line Emission from a Starburst Galaxy: A New Probe of a Galactic-scale Outflow. ApJ 728:55, DOI 10.1088/0004-637X/728/1/55, 1008.3397
152. Rubin KHR, Hennawi JF, Prochaska JX, Simcoe RA, Myers A, Lau MW (2015) Dissecting the Gaseous Halos of z ∼2 Damped Lyα Systems with Close Quasar Pairs. ApJ 808:38, DOI 10.1088/0004-637X/808/1/38, 1411.6016
153. Salim S, Rich RM (2010) Star Formation Signatures in Optically Quiescent Early-type Galaxies. ApJL 714:L290–L294, DOI 10.1088/2041-8205/714/2/L290, 1004.2041
154. Sánchez SF, Rosales-Ortega FF, Iglesias-Páramo J, Mollá M, Barrera-Ballesteros J, Marino RA, Pérez E, Sánchez-Blazquez P, González Delgado R, Cid Fernandes R, de Lorenzo-Cáceres A, Mendez-Abreu J, Galbany L, Falcon-Barroso J, Miralles-Caballero D, Husemann B, García-Benito R, Mast D, Walcher CJ, Gil de Paz A, García-Lorenzo B, Jungwiert B, Vílchez JM, Jílková L, Lyubenova M, Cortijo-Ferrero C, Díaz AI, Wisotzki L, Márquez I, Bland-Hawthorn J, Ellis S, van de Ven G, Jahnke K, Papaderos P, Gomes JM, Mendoza MA, López-Sánchez ÁR (2014) A characteristic oxygen abundance gradient in galaxy disks unveiled with CALIFA. A&A 563:A49, DOI 10.1051/0004-6361/201322343, 1311.7052
155. Sánchez-Ramírez R, Ellison SL, Prochaska JX, Berg TAM, López S, D'Odorico V, Becker GD, Christensen L, Cupani G, Denney KD, Pâris I, Worseck G, Gorosabel J (2016) The evolution of neutral gas in damped Lyman α systems from the XQ-100 survey. MNRAS 456:4488–4505, DOI 10.1093/mnras/stv2732, 1511.05003
156. Savage BD, Sembach KR (1996) Interstellar Abundances from Absorption-Line Observations with the Hubble Space Telescope. ARA&A 34:279–330, DOI 10.1146/annurev.astro.34.1.279
157. Savage BD, Sembach KR, Tripp TM, Richter P (2002) Far Ultraviolet Spectroscopic Explorer and Space Telescope Imaging Spectrograph Observations of Intervening O VI Absorption Line Systems in the Spectrum of PG 0953+415. ApJ 564:631–649, DOI 10.1086/324288
158. Schechter P (1976) An analytic expression for the luminosity function for galaxies. ApJ 203:297–306, DOI 10.1086/154079
159. Schmidt M (1959) The Rate of Star Formation. ApJ 129:243, DOI 10.1086/146614
160. Serra P, Oosterloo T, Morganti R, Alatalo K, Blitz L, Bois M, Bournaud F, Bureau M, Cappellari M, Crocker AF, Davies RL, Davis TA, de Zeeuw PT, Duc PA, Emsellem E, Khochfar S, Krajnović D, Kuntschner H, Lablanche PY, McDermid RM, Naab T, Sarzi M, Scott N, Trager SC, Weijmans AM, Young LM (2012) The ATLAS^3D project - XIII. Mass and morphology of H I in early-type galaxies as a function of environment. MNRAS 422:1835–1862, DOI 10.1111/j.1365-2966.2012.20219.x, 1111.4241
161. Shen S, Madau P, Guedes J, Mayer L, Prochaska JX, Wadsley J (2013) The Circumgalactic Medium of Massive Galaxies at z ~ 3: A Test for Stellar Feedback, Galactic Outflows, and Cold Streams. ApJ 765:89, DOI 10.1088/0004-637X/765/2/89, 1205.0270
162. Simcoe RA (2011) The Carbon Content of Intergalactic Gas at z = 4.25 and Its Evolution toward z = 2.4. ApJ 738:159, DOI 10.1088/0004-637X/738/2/159, 1106.2810
163. Som D, Kulkarni VP, Meiring J, York DG, Péroux C, Lauroesch JT, Aller MC, Khare P (2015) Hubble Space Telescope Observations of Sub-damped Lyα Absorbers at z < 0.5, and Implications for Galaxy Chemical Evolution. ApJ 806:25, DOI 10.1088/0004-637X/806/1/25, 1502.01989
164. Steidel CC, Kollmeier JA, Shapley AE, Churchill CW, Dickinson M, Pettini M (2002) The Kinematic Connection between absorbing Gas toward QSOs and Galaxies at Intermediate Redshift. ApJ 570:526–542, DOI 10.1086/339792, astro-ph/0201353
165. Steidel CC, Erb DK, Shapley AE, Pettini M, Reddy N, Bogosavljević M, Rudie GC, Rakic O (2010) The Structure and Kinematics of the Circumgalactic Medium from Far-ultraviolet Spectra of z ~= 2-3 Galaxies. ApJ 717:289–322, DOI 10.1088/0004-637X/717/1/289, 1003.0679
166. Stocke JT, Penton SV, Danforth CW, Shull JM, Tumlinson J, McLin KM (2006) The Galaxy Environment of O VI Absorption Systems. ApJ 641:217–228, DOI 10.1086/500386, astro-ph/0509822
167. Stocke JT, Keeney BA, Danforth CW, Shull JM, Froning CS, Green JC, Penton SV, Savage BD (2013) Characterizing the Circumgalactic Medium of Nearby Galaxies with HST/COS and HST/STIS Absorption-line Spectroscopy. ApJ 763:148, DOI 10.1088/0004-637X/763/2/148, 1212.5658
168. Straka LA, Noterdaeme P, Srianand R, Nutalaya S, Kulkarni VP, Khare P, Bowen D, Bishof M, York DG (2015) Galactic nebular lines in the fibre spectra of background QSOs: reaching a hundred QSO-galaxy pairs with spectroscopic and photometric measurements. MNRAS 447:3856–3872, DOI 10.1093/mnras/stu2739, 1412.6661
169. Swaters RA, van Albada TS, van der Hulst JM, Sancisi R (2002) The Westerbork HI survey of spiral and irregular galaxies. I. HI imaging of late-type dwarf galaxies. A&A 390:829–861, DOI 10.1051/0004-6361:20011755, astro-ph/0204525
170. Tacconi LJ, Neri R, Genzel R, Combes F, Bolatto A, Cooper MC, Wuyts S, Bournaud F, Burkert A, Comerford J, Cox P, Davis M, Förster Schreiber NM, García-Burillo S, Gracia-Carpio J, Lutz D, Naab T, Newman S, Omont A, Saintonge A, Shapiro Griffin K, Shapley A, Sternberg A, Weiner B (2013) Phibss: Molecular Gas Content and Scaling Relations in z ~ 1-3 Massive, Main-sequence Star-forming Galaxies. ApJ 768:74, DOI 10.1088/0004-637X/768/1/74, 1211.5743
171. Tremonti CA, Heckman TM, Kauffmann G, Brinchmann J, Charlot S, White SDM, Seibert M, Peng EW, Schlegel DJ, Uomoto A, Fukugita M, Brinkmann J (2004) The Origin of the Mass-Metallicity Relation: Insights from 53,000 Star-forming Galaxies in the Sloan Digital Sky Survey. ApJ 613:898–913, DOI 10.1086/423264, astro-ph/0405537
172. Tripp TM, Giroux ML, Stocke JT, Tumlinson J, Oegerle WR (2001) The Ionization and Metallicity of the Intervening O VI Absorber at z = 0.1212 in the Spectrum of H1821+643. ApJ 563:724–735, DOI 10.1086/323965, astro-ph/0108371
173. Tumlinson J (2006) Chemical Evolution in Hierarchical Models of Cosmic Structure. I. Constraints on the Early Stellar Initial Mass Function. ApJ 641:1–20, DOI 10.1086/500383, astro-ph/0507442
174. Tumlinson J, Shull JM, Rachford BL, Browning MK, Snow TP, Fullerton AW, Jenkins EB, Savage BD, Crowther PA, Moos HW, Sembach KR, Sonneborn G, York DG (2002) A Far Ultraviolet Spectroscopic Explorer Survey of Interstellar Molecular Hydrogen in the Small and Large Magellanic Clouds. ApJ 566:857–879, DOI 10.1086/338112, astro-ph/0110262
175. Tumlinson J, Prochaska JX, Chen HW, Dessauges-Zavadsky M, Bloom JS (2007) Missing Molecular Hydrogen and the Physical Conditions of GRB Host Galaxies. ApJ 668:667–673, DOI 10.1086/521294, astro-ph/0703666
176. Tumlinson J, Thom C, Werk JK, Prochaska JX, Tripp TM, Weinberg DH, Peeples MS, O'Meara JM, Oppenheimer BD, Meiring JD, Katz NS, Davé R, Ford AB, Sembach KR (2011) The Large, Oxygen-Rich Halos of Star-Forming Galaxies Are a Major Reservoir of Galactic Metals. Science 334:948, DOI 10.1126/science.1209840, 1111.3980
177. Tumlinson J, Thom C, Werk JK, Prochaska JX, Tripp TM, Katz N, Davé R, Oppenheimer BD, Meiring JD, Ford AB, O'Meara JM, Peeples MS, Sembach KR, Weinberg DH (2013) The COS-Halos Survey: Rationale, Design, and a Census of Circumgalactic Neutral Hydrogen. ApJ 777:59, DOI 10.1088/0004-637X/777/1/59, 1309.6317
178. van Zee L, Salzer JJ, Haynes MP, O'Donoghue AA, Balonek TJ (1998) Spectroscopy of Outlying H II Regions in Spiral Galaxies: Abundances and Radial Gradients. AJ 116:2805–2833, DOI 10.1086/300647, astro-ph/9808315
179. Verdes-Montenegro L, Yun MS, Williams BA, Huchtmeier WK, Del Olmo A, Perea J (2001) Where is the neutral atomic gas in Hickson groups? A&A 377:812–826, DOI 10.1051/0004-6361:20011127, astro-ph/0108223
180. Verheijen M, van Gorkom JH, Szomoru A, Dwarakanath KS, Poggianti BM, Schiminovich D (2007) WSRT Ultradeep Neutral Hydrogen Imaging of Galaxy Clusters at z ~ 0.2: A Pilot Survey of Abell 963 and Abell 2192. ApJL 668:L9–L13, DOI 10.1086/522621, 0708.3853
181. Verheijen MAW, Sancisi R (2001) The Ursa Major cluster of galaxies. IV. HI synthesis observations. A&A 370:765–867, DOI 10.1051/0004-6361:20010090, astro-ph/0101404
182. Viegas SM (1995) Abundances at high redshift: ionization correction factors. MNRAS 276:268–272, DOI 10.1093/mnras/276.1.268
183. Vladilo G, Centurión M, Bonifacio P, Howk JC (2001) Ionization Properties and Elemental Abundances in Damped Lyα Systems. ApJ 557:1007–1020, DOI 10.1086/321650, astro-ph/0104298
184. Walter F, Brinks E, de Blok WJG, Bigiel F, Kennicutt RC Jr, Thornley MD, Leroy A (2008) THINGS: The H I Nearby Galaxy Survey. AJ 136:2563-2647, DOI 10.1088/0004-6256/136/6/2563, 0810.2125
185. Walter F, Decarli R, Sargent M, Carilli C, Dickinson M, Riechers D, Ellis R, Stark D, Weiner B, Aravena M, Bell E, Bertoldi F, Cox P, Da Cunha E, Daddi E, Downes D, Lentati L, Maiolino R, Menten KM, Neri R, Rix HW, Weiss A (2014) A Molecular Line Scan in the Hubble Deep Field North: Constraints on the CO Luminosity Function and the Cosmic H₂ Density. ApJ 782:79, DOI 10.1088/0004-637X/782/2/79, 1312.6365
186. Warren SJ, Møller P, Fall SM, Jakobsen P (2001) NICMOS imaging search for high-redshift damped Lyα galaxies. MNRAS 326:759–773, DOI 10.1046/j.1365-8711.2001.04629.x, astro-ph/0105032
187. Werk JK, Prochaska JX, Thom C, Tumlinson J, Tripp TM, O'Meara JM, Peeples MS (2013) The COS-Halos Survey: An Empirical Description of Metal-line Absorption in the Low-redshift Circumgalactic Medium. ApJS 204:17, DOI 10.1088/0067-0049/204/2/17, 1212.0558
188. Werk JK, Prochaska JX, Tumlinson J, Peeples MS, Tripp TM, Fox AJ, Lehner N, Thom C, O'Meara JM, Ford AB, Bordoloi R, Katz N, Tejos N, Oppenheimer BD, Davé R, Weinberg DH (2014) The COS-Halos Survey: Physical Conditions and Baryonic Mass in the Low-redshift Circumgalactic Medium. ApJ 792:8, DOI 10.1088/0004-637X/792/1/8, 1403.0947
189. Westmeier T, Brüns C, Kerp J (2008) Relics of structure formation: extra-planar gas and high-velocity clouds around the Andromeda Galaxy. MNRAS 390:1691–1709, DOI 10.1111/j.1365-2966.2008.13858.x, 0808.3611
190. Wolfe AM, Chen HW (2006) Searching for Low Surface Brightness Galaxies in the Hubble Ultra Deep Field: Implications for the Star Formation Efficiency in Neutral Gas at z ~ 3. ApJ 652:981–993, DOI 10.1086/507574, astro-ph/0608040
191. Wolfe AM, Turnshek DA, Smith HE, Cohen RD (1986) Damped Lyman-alpha absorption by disk galaxies with large redshifts. I - The Lick survey. ApJS 61:249–304, DOI 10.1086/191114
192. Wolfe AM, Lanzetta KM, Foltz CB, Chaffee FH (1995) The Large Bright QSO Survey for Damped LY alpha Absorption Systems. ApJ 454:698, DOI 10.1086/176523
193. Wolfe AM, Gawiser E, Prochaska JX (2005) Damped Ly α Systems. ARA&A 43:861–918, DOI 10.1146/annurev.astro.42.053102.133950, astro-ph/0509481
194. Wolfire MG, Tielens AGGM, Hollenbach D, Kaufman MJ (2008) Chemical Rates on Small Grains and PAHs: C⁺ Recombination and H₂ Formation. ApJ 680:384-397, DOI 10.1086/587688, 0803.0138
195. Wong T, Blitz L (2002) The Relationship between Gas Content and Star Formation in Molecule-rich Spiral Galaxies. ApJ 569:157–183, DOI 10.1086/339287, astro-ph/0112204
196. Wright SA, Larkin JE, Law DR, Steidel CC, Shapley AE, Erb DK (2009) Dynamics of Galactic Disks and Mergers at z ~ 1.6: Spatially Resolved Spectroscopy with Keck Laser Guide Star Adaptive Optics. ApJ 699:421–440, DOI 10.1088/0004-637X/699/1/421, 0810.5599
197. Wuyts E, Wisnioski E, Fossati M, Förster Schreiber NM, Genzel R, Davies R, Mendel JT, Naab T, Röttgers B, Wilman DJ, Wuyts S, Bandara K, Beifiori A, Belli S, Bender R, Brammer GB, Burkert A, Chan J, Galametz A, Kulkarni SK, Lang P, Lutz D, Momcheva IG, Nelson EJ, Rosario D, Saglia RP, Seitz S, Tacconi LJ, Tadaki Ki, Übler H, van Dokkum P (2016) The Evolution of Metallicity and Metallicity Gradients from z = 2.7 to 0.6 with KMOS^3D. ApJ 827:74, DOI 10.3847/0004-637X/827/1/74, 1603.01139
198. Wyder TK, Martin DC, Barlow TA, Foster K, Friedman PG, Morrissey P, Neff SG, Neill JD, Schiminovich D, Seibert M, Bianchi L, Donas J, Heckman TM, Lee YW, Madore BF, Milliard B, Rich RM, Szalay AS, Yi SK (2009) The Star Formation Law at Low Surface Density. ApJ 696:1834–1853, DOI 10.1088/0004-637X/696/2/1834, 0903.3015
199. York DG, Adelman J, Anderson JE Jr, Anderson SF, Annis J, Bahcall NA, Bakken JA, Barkhouser R, Bastian S, Berman E, Boroski WN, Bracker S, Briegel C, Briggs JW, Brinkmann J, Brunner R, Burles S, Carey L, Carr MA, Castander FJ, Chen B, Colestock PL, Connolly AJ , Crocker JH, Csabai I, Czarapata PC, Davis JE, Doi M, Dombeck T, Eisenstein D, Ellman N, Elms BR, Evans ML, Fan X, Federwitz GR, Fiscelli L, Friedman S, Frieman JA, Fukugita M, Gillespie B, Gunn JE, Gurbani VK, de Haas E, Haldeman M, Harris FH, Hayes J, Heckman TM, Hennessy GS, Hindsley RB, Holm S, Holmgren DJ, Huang Ch, Hull C, Husby D, Ichikawa SI, Ichikawa T, Ivezić Ž, Kent S, Kim RSJ, Kinney E, Klaene M, Kleinman AN, Kleinman S, Knapp GR, Korienek J, Kron RG, Kunszt PZ, Lamb DQ, Lee B, Leger RF, Limmongkol S, Lindenmeyer C, Long DC, Loomis C, Loveday J, Lucinio R, Lupton RH, MacKinnon B, Mannery EJ, Mantsch PM, Margon B, McGehee P, McKay TA, Meiksin A, Merelli A, Monet DG, Munn JA, Narayanan VK, Nash T, Neilsen E, Neswold R, Newberg HJ, Nichol RC, Nicinski T, Nonino M, Okada N, Okamura S, Ostriker JP, Owen R, Pauls AG, Peoples J, Peterson RL, Petravick D, Pier JR, Pope A, Pordes R, Prosapio A, Rechenmacher R, Quinn TR, Richards GT, Richmond MW, Rivetta CH, Rockosi CM, Ruthmansdorfer K, Sandford D, Schlegel DJ, Schneider DP, Sekiguchi M, Sergey G, Shimasaku K, Siegmund WA, Smee S, Smith JA, Snedden S, Stone R, Stoughton C, Strauss MA, Stubbs C, SubbaRao M, Szalay AS, Szapudi I, Szokoly GP, Thakar AR, Tremonti C, Tucker DL, Uomoto A, Vanden Berk D, Vogeley MS, Waddell P, Wang Si, Watanabe M, Weinberg DH, Yanny B, Yasuda N, SDSS Collaboration (2000) The Sloan Digital Sky Survey: Technical Summary. AJ 120:1579–1587, DOI 10.1086/301513, astro-ph/0006396
200. Yun MS, Ho PTP, Lo KY (1994) A high-resolution image of atomic hydrogen in the M81 group of galaxies. Nature 372:530–532, DOI 10.1038/372530a0
201. Zahedy FS, Chen HW, Rauch M, Wilson ML, Zabludoff A (2016) Probing the cool interstellar and circumgalactic gas of three massive lensing galaxies at z = 0.4-0.7. MNRAS 458:2423–2442, DOI 10.1093/mnras/stw484, 1510.04307
202. Zaritsky D, Kennicutt RC Jr, Huchra JP (1994) H II regions and the abundance properties of spiral galaxies. ApJ 420:87–109, DOI 10.1086/173544
203. Zwaan MA, Prochaska JX (2006) Where Is the Molecular Hydrogen in Damped Lyα Absorbers? ApJ 643:675–679, DOI 10.1086/503191, astro-ph/0601655
204. Zwaan MA, van der Hulst JM, Briggs FH, Verheijen MAW, Ryan-Weber EV (2005) Reconciling the local galaxy population with damped Lyman α cross-sections and metal abundances. MNRAS 364:1467–1487, DOI 10.1111/j.1365-2966.2005.09698.x astro-ph/0510127