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Annual Review of Astronomy and Astrophysics

Volume 51, 2013

Cool Gas in High-Redshift Galaxies

Abstract

Over the past decade, observations of the cool interstellar medium (ISM) in distant galaxies via molecular and atomic fine structure line (FSL) emission have gone from a curious look into a few extreme, rare objects to a mainstream tool for studying galaxy formation out to the highest redshifts. Molecular gas has been observed in close to 200 galaxies at > 1, including numerous AGN host-galaxies out to ∼ 7, highly star-forming submillimeter galaxies, and increasing samples of main-sequence color-selected star-forming galaxies at ∼ 1.5 to 2.5. Studies have moved well beyond simple detections to dynamical imaging at kiloparsec-scale resolution and multiline, multispecies studies that determine the physical conditions in the ISM in early galaxies. Observations of the cool gas are the required complement to studies of the stellar density and star-formation history of the Universe as they reveal the phase of the ISM that immediately precedes star formation in galaxies. Current observations suggest that the order of magnitude increase in the cosmic star-formation rate density from ∼ 0 to 2 is commensurate with a similar increase in the gas-to-stellar mass ratio in star-forming disk galaxies. Progress has been made in determining the CO luminosity to H mass conversion factor at high , and the dichotomy between high versus low values for main-sequence versus starburst galaxies, respectively, appears to persist with increasing redshift, with a likely dependence on metallicity and other local physical conditions. There may also be two sequences in the relationship between star-formation rate and gas mass: one for starbursts, in which the gas consumption timescale is short (a few 107 years), and one for main sequence galaxies, with an order of magnitude longer gas consumption timescale. Studies of atomic FSL emission are rapidly progressing, with some tens of galaxies detected in the exceptionally bright [C] 158-μm line to date. The [C] line is proving to be a unique tracer of galaxy dynamics in the early Universe and, together with other atomic FSLs, has the potential to be the most direct means of obtaining spectroscopic redshifts for the first galaxies during cosmic reionization.

Keyword(s): atomic fine structure linesgalaxiesgalaxy formationmolecular gasradio lines: cmradio lines: mmradio lines: molecular
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2013-08-18
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Literature Cited

  1. Alexander DM, Bauer F, Chapman SC, Smail I, Blain AW. et al. 2005. Ap. J. 632:736–50 [Google Scholar]
  2. Ao Y, Weiß A, Downes D, Walter F, Henkel C, Menten KM. 2008. Astron. Astrophys. 491:747–54 [Google Scholar]
  3. Aravena M, Carilli C, Daddi E, Wagg J, Walter F. et al. 2010. Ap. J. 718:177–83 [Google Scholar]
  4. Aravena M, Carilli CL, Salvato M, Tanaka M, Lentati L. et al. 2012. MNRAS 426:258 [Google Scholar]
  5. Baker AJ, Tacconi LJ, Genzel R, Lehnert MD, Lutz D. 2004. Ap. J. 604:125–40 [Google Scholar]
  6. Barvainis R, Maloney P, Antonucci R, Alloin D. 1997. Ap. J. 484:695 [Google Scholar]
  7. Barvainis R, Tacconi L, Antonnucci R, Alloin D, Coleman P. 1994. 371586–88
  8. Bauermeister A, Blitz L, Bollato AD, Bureau M, Leroy A. et al. 2013. Ap. J. 768:132 [Google Scholar]
  9. Bauermeister A, Blitz L, Ma C-P. 2010. Ap. J. 717:323–32 [Google Scholar]
  10. Bayet E, Gerin M, Phillips T, Contursi A. 2004. Nature 427:45–59 [Google Scholar]
  11. Beelen A, Cox P, Benford D, Dowell C, Kovacs A. et al. 2006. Ap. J. 642:694–701 [Google Scholar]
  12. Bell EF, van der Wel A, Papovich C, Kocevski D, Lotz J. et al. 2012. Ap. J. 753:167 [Google Scholar]
  13. Bertoldi F, Carilli CL, Cox P, Fan X, Strauss M. et al. 2003. Astron. Astrophys. 406:L55–58 [Google Scholar]
  14. Bertram T, Eckart A, Fischer S, Zuther J, Straubmeier C. et al. 2007. Astron. Astrophys. 470:571 [Google Scholar]
  15. Bigiel F, Leroy A, Walter F, Brinks E, de Blok WJG. et al. 2008. Astron. J. 136:2846–71 [Google Scholar]
  16. Bigiel F, Leroy AK, Walter F, Brinks E, de Blok WJG. et al. 2011. Ap. J. 730:L13 [Google Scholar]
  17. Blain A, Smail I, Ivison R, Kneib J-P, Frayer DT. et al. 2002. Phys. Rep. 369:111–76 [Google Scholar]
  18. Bloemen H. 1989. Annu. Rev. Astron. Astrophys. 27:469–516 [Google Scholar]
  19. Bolatto AD, Leroy AK, Wolfire M. 2013. Annu. Rev. Astron. Astrophys. 51:207–68 [Google Scholar]
  20. Bothwell M, Chapman SC, Tacconi L, Smail I, Ivison RJ. et al. 2010. MNRAS 405:219–33 [Google Scholar]
  21. Bothwell M, Smail I, Chapman SC, Genzel R, Ivison RJ. et al. 2013. MNRAS 429:3047 [Google Scholar]
  22. Bournaud F, Elmegreen BG, Martig M. 2009. Ap. J. 707:L1–5 [Google Scholar]
  23. Bouwens R, Illingworth G, Labbé I, Oesch P, Trenti M. et al. 2011b. Nature 469:504–7 [Google Scholar]
  24. Bouwens R, Illingworth G, Oesch P, Franx M, Labbé I. et al. 2012b. Ap. J. 754:83 [Google Scholar]
  25. Bouwens R, Illingworth G, Oesch P, Labbé I, Trenti M. et al. 2011a. Ap. J. 737:90 [Google Scholar]
  26. Bouwens R, Illingworth G, Oesch P, Trenti M, Labbé I. et al. 2012a. Ap. J. 752:L5 [Google Scholar]
  27. Bouwens RJ, Illingworth GD, Oesch PA, Trenti M, Stiavelli M. et al. 2010. Ap. J. Lett. 708:L69 [Google Scholar]
  28. Bradač M, Vanzella E, Hall N, Treu T, Fontana A. et al. 2012. Ap. J. 755:L7 [Google Scholar]
  29. Bradford C, Nikola T, Stacey GJ, Bolatto AD, Jackson JM. et al. 2003. Ap. J. 586:891–901 [Google Scholar]
  30. Brown RL, Vanden Bout PA. 1991. Astron. J. 102:1956–59 [Google Scholar]
  31. Bryant PM, Scoville NZ. 1999. Ap. J. 117:2632–55 [Google Scholar]
  32. Carilli CL, Blain AW. 2002. Ap. J. 569:605–10 [Google Scholar]
  33. Carilli CL, Cox P, Bertoldi F, Menten KM, Omont A. et al. 2002. Ap. J. 575:145–49 [Google Scholar]
  34. Carilli CL, Hodge J, Walter F, Riechers D, Daddi E. et al. 2011. Ap. J. Lett. 739:L33 [Google Scholar]
  35. Carilli CL, Menten KM. 2002. Highlights Astron. 12:481 [Google Scholar]
  36. Carilli CL, Rawlings S. 2004. New Astron. Rev. 48:979 [Google Scholar]
  37. Carilli CL, Riechers D, Walter F, Maiolino R, Wagg J. et al. 2013. Ap. J. 763:120 [Google Scholar]
  38. Carilli CL, Yun MS. 1999. Ap. J. Lett. 513:L13–16 [Google Scholar]
  39. Carilli CL, Yun MS. 2000. Ap. J. 530:618–24 [Google Scholar]
  40. Casey C, Chapman SC, Daddi E, Dannerbauer H, Pope A. et al. 2009. MNRAS 400:670–76 [Google Scholar]
  41. Casey C, Chapman SC, Neri R, Bertoldi F, Smail I. et al. 2011. MNRAS 415:2723–43 [Google Scholar]
  42. Chapman SC, Blain AW, Ivison RJ, Smail IR. 2003. Nature 422:695–98 [Google Scholar]
  43. Chapman SC, Neri R, Bertoldi F, Smail I, Greve TR. et al. 2008. Ap. J. 689:889–96 [Google Scholar]
  44. Chung A, Narayanan G, Yun MS, Heyer M, Erickson NR. 2009. Astron. J. 138:858 [Google Scholar]
  45. Coe D, Zitrin A, Carrasco M, Shu X, Zheng W. et al. 2013. Ap. J. 762:32 [Google Scholar]
  46. Combes F. 2008. Ap. Space Sci. 313:321 [Google Scholar]
  47. Combes F, García-Burillo S, Braine J, Schinnerer E, Walter F, Colina L. 2011. Astron. Astrophys. 528:124 [Google Scholar]
  48. Combes F, García-Burillo S, Braine J, Schinnerer E, Walter F, Colina L. 2013. Astron. Astrophys. 550:41 [Google Scholar]
  49. Combes F, Maoli R, Omont A. 1999. Astron. Astrophys. 345:369–79 [Google Scholar]
  50. Combes F, Rex M, Rawle T, Egami E, Boone F. et al. 2012. Astron. Astrophys. 538:L4 [Google Scholar]
  51. Condon JJ. 1992. Annu. Rev. Astron. Astrophys. 30:575–611 [Google Scholar]
  52. Coppin KEK, Danielson ALR, Geach JE, Hodge JA, Swinbank AM. et al. 2012. MNRAS 427:520 [Google Scholar]
  53. Coppin KEK, Smail I, Alexander DM, Weiß A, Walter F. et al. 2009. MNRAS 395:1905–14 [Google Scholar]
  54. Coppin KEK, Swinbank AM, Neri R, Cox P, Alexander DM. et al. 2008. MNRAS 389:45–62 [Google Scholar]
  55. Coppin KEK, Swinbank AM, Neri R, Cox P, Smail I. et al. 2007. Ap. J. 665:936–43 [Google Scholar]
  56. Cormier D, Madden SC, Hony S, Contursi A, Poglitsch A. et al. 2010. Astron. Astrophys. 518:L57 [Google Scholar]
  57. Cox P, Krips M, Neri R, Omont A, Güsten R. et al. 2011. Ap. J. 740:63 [Google Scholar]
  58. Croton DJ, Springel V, White SDM, De Lucia G, Frenk C. et al. 2006. MNRAS 365:11–28 [Google Scholar]
  59. da Cunha E, Groves B, Walter F, Decarli R, Weiß A. et al. 2013. Ap. J. 766:13 [Google Scholar]
  60. Daddi E, Bournaud F, Walter F, Dannerbauer H, Carilli CL. et al. 2010a. Ap. J. 713:686–707 [Google Scholar]
  61. Daddi E, Cimatti A, Renzini A, Fontana A, Mignoli M. et al. 2004. Ap. J. 617:746–64 [Google Scholar]
  62. Daddi E, Dannerbauer H, Elbaz D, Dickinson M, Morrison G. et al. 2008. Ap. J. Lett. 673:L21–24 [Google Scholar]
  63. Daddi E, Dannerbauer H, Krips M, Walter F, Dickinson M. et al. 2009a. Ap. J. Lett. 695:L176 [Google Scholar]
  64. Daddi E, Dannerbauer H, Stern D, Dickinson M, Morrison G. et al. 2009b. Ap. J. 694:1517–38 [Google Scholar]
  65. Daddi E, Elbaz D, Walter F, Bournaud F, Salmi F. et al. 2010b. Ap. J. Lett. 714:L118 [Google Scholar]
  66. Dame TM, Hartmann D, Thaddeus P. 2001. Ap. J. 547:792–813 [Google Scholar]
  67. Danielson ALR, Swinbank AM, Smail I, Cox P, Edge AC. et al. 2011. MNRAS 410:1687–702 [Google Scholar]
  68. Dannerbauer H, Daddi E, Riechers DA, Walter F, Carilli CL. et al. 2009. Ap. J. Lett. 698:L178–82 [Google Scholar]
  69. Dannerbauer H, Lehnert MD, Lutz D, Tacconi L, Bertoldi F. et al. 2004. Ap. J. 606:664–82 [Google Scholar]
  70. Davé R, Finlator K, Oppenheimer B, Fardal M, Katz N. et al. 2010. MNRAS 404:1355–68 [Google Scholar]
  71. De Breuck C, Downes D, Neri R, van Breugel W, Reuland M. et al. 2005. Astron. Astrophys. 430:L1–4 [Google Scholar]
  72. De Breuck C, Maiolino R, Caselli P, Coppin K, Hailey-Dunsheath S, Nagao T. 2011. Astron. Astrophys. 530:L8 [Google Scholar]
  73. De Breuck C, Neri R, Morganti R, Omont A, Rocca-Volmerange B. et al. 2003. Astron. Astrophys. 401:911–25 [Google Scholar]
  74. De Breuck C, Neri R, Omont A. 2003. New Astron. Rev. 47:285–89 [Google Scholar]
  75. Decarli R, Walter F, Neri R, Bertoldi F, Carilli C. et al. 2012. Ap. J. 752:2 [Google Scholar]
  76. Dekel A, Birnboim Y. 2006. MNRAS 368:2–20 [Google Scholar]
  77. Dekel A, Birnboim Y, Engel G, Freundlich J, Goerdt T. et al. 2009. Ap. J. 457:451–54 [Google Scholar]
  78. Dekel A, Sari R, Ceverino D. 2009. Ap. J. 703:785–801 [Google Scholar]
  79. Dickman RL. 1975. Ap. J. 202:50–57 [Google Scholar]
  80. Dickman RL. 1978. Ap. J. Suppl. 37:407–27 [Google Scholar]
  81. Dickman RL, Snell RL, Schloerb FP. 1986. Ap. J. 309:326–30 [Google Scholar]
  82. Downes D, Solomon PM. 1998. Ap. J. 507:615–54 [Google Scholar]
  83. Draine BT, Dale DA, Bendo G, Gordon KD, Smith JDT. et al. 2007. Ap. J. 663:866–94 [Google Scholar]
  84. Draine BT, Li A. 2007. Ap. J. 657:810–37 [Google Scholar]
  85. Dressler A, Oemler A, Gladders M, Bai L, Rigby J, Poggianti B. 2009. Ap. J. Lett. 699:L130–33 [Google Scholar]
  86. Dyson JE, Williams DA. 1980. Physics of the Interstellar Medium. New York: Halsted [Google Scholar]
  87. Elbaz D. 2002. Ap. J. 281:449–52 [Google Scholar]
  88. Elbaz D, Dickinson M, Hwang HS, Diaz-Santos T, Magdis G. GOODS-Herschel team 2011. Astron. Astrophys. 533:119 [Google Scholar]
  89. Elmegreen BG, Burkert A. 2010. Ap. J. 712:294–302 [Google Scholar]
  90. Emonts BHC, Feain I, Mao M, Norris R, Miley G. et al. 2011. Ap. J. Lett. 734:L25 [Google Scholar]
  91. Emonts BHC, Feain I, Röttgering HJA, Miley G, Seymour N. et al. 2013. MNRAS 430:3465 [Google Scholar]
  92. Engel H, Tacconi LJ, Davies R, Neri R, Smail I. et al. 2010. Ap. J. 724:233–43 [Google Scholar]
  93. Erb DK, Shapley AE, Pettini M, Steidel CC, Reddy NA, Adelberger KL. 2006. Ap. J. 644:813 [Google Scholar]
  94. Evans AS. 2006. New Astron. Rev. 50:657 [Google Scholar]
  95. Evans AS, Frayer DT, Surace JA, Sanders DB. 2001. Astron. J. 121:1893 [Google Scholar]
  96. Fabian AC. 2012. Annu. Rev. Astron. Astrophys. 50:455–89 [Google Scholar]
  97. Fan X, Carilli CL, Keating B. 2006. Annu. Rev. Astron. Astrophys. 44:415–62 [Google Scholar]
  98. Feldmann R, Gnedin NY, Kravtsov AV. 2011. Ap. J. 732:115 [Google Scholar]
  99. Feldmann R, Gnedin NY, Kravtsov AV. 2012a. Ap. J. 747:124 [Google Scholar]
  100. Feldmann R, Gnedin NY, Kravtsov AV. 2012b. Ap. J. 758:127 [Google Scholar]
  101. Ferkinhoff C, Brisbin D, Nikola T, Parshley SC, Stacey GJ. et al. 2011. Ap. J. Lett. 740:L29 [Google Scholar]
  102. Ferkinhoff C, Hailey-Dunsheath S, Nikola T, Parshley S, Stacey GJ. et al. 2010. Ap. J. Lett. 714:L147–51 [Google Scholar]
  103. Feruglio C, Aussel H, Le Floc'h E, lbert O, Salvato M. et al. 2010. Ap. J. 721:607 [Google Scholar]
  104. Finkelstein SL, Papovich C, Ryan RE, Pawlik AH, Dickinson M. et al. 2012. Ap. J. 758:93 [Google Scholar]
  105. Finlator K, Davé R, Papovich C, Hernquist L. 2006. Ap. J. 639:672–94 [Google Scholar]
  106. Flower DR, Launay JM. 1985. MNRAS 214:271 [Google Scholar]
  107. Flower DR, Pineau des Forêts G. 2003. MNRAS 343:390–400 [Google Scholar]
  108. Franx M, Labbé I, Rudnick G, van Dokkum PG, Daddi E. et al. 2003. Ap. J. 587:L79–82 [Google Scholar]
  109. Frayer DT, Ivison RJ, Scoville NZ, Evans AS, Yun M. et al. 1999. Ap. J. Lett. 514:L13–16 [Google Scholar]
  110. Frayer DT, Ivison RJ, Scoville NZ, Yun M, Evans AS. et al. 1998. Ap. J. Lett. 506:L7–10 [Google Scholar]
  111. Fu J, Kauffmann G, Li C, Guo Q. 2012. MNRAS 424:2701 [Google Scholar]
  112. Fukugita M, Peebles PJE. 2004. Ap. J. 616:643–68 [Google Scholar]
  113. Gallerani S, Neri R, Maiolino R, Martin S, De Breuck C. et al. 2012. Astron. Astrophys. 543:A114 [Google Scholar]
  114. Gao Y, Solomon PM. 2004a. Ap. J. Suppl. 152:63–80 [Google Scholar]
  115. Gao Y, Solomon PM. 2004b. Ap. J. 606:271–90 [Google Scholar]
  116. García-Burillo S, Graciá-Carpio J, Guélin M, Neri R, Cox P. et al. 2006. Ap. J. Lett. 645:L17 [Google Scholar]
  117. Geach JE, Papadopoulos PP. 2012. Ap. J. 757:156 [Google Scholar]
  118. Geach JE, Smail I, Moran SM, MacArthur LA, Lagos CDP, Edge AC. 2011. Ap. J. 730:L19 [Google Scholar]
  119. Genzel R, Burkert A, Bouché N, Cresci G, Förster Schreiber NM. et al. 2008. Ap. J. 687:59–77 [Google Scholar]
  120. Genzel R, Cesarsky CJ. 2000. Annu. Rev. Astron. Astrophys. 38:761–814 [Google Scholar]
  121. Genzel R, Newman S, Jones T, Förster Schreiber NM, Shapiro K. et al. 2011. Ap. J. 733:101 [Google Scholar]
  122. Genzel R, Tacconi LJ, Combes F, Bolatto A, Neri R. et al. 2012. Ap. J. 746:69 [Google Scholar]
  123. Genzel R, Tacconi LJ, Eisenhauer F, Förster Schreiber NM, Cimatti A. et al. 2006. Ap. J. 442:786–89 [Google Scholar]
  124. Genzel R, Tacconi LJ, Graciá-Carpio J, Sternberg A, Cooper MC. et al. 2010. MNRAS 407:2091–108 [Google Scholar]
  125. Gerin M, Phillips T. 2000. Ap. J. 537:644–53 [Google Scholar]
  126. Giavalisco M. 2002. Annu. Rev. Astron. Astrophys. 40:579–641 [Google Scholar]
  127. Glover SCO, Clark PC. 2012. MNRAS 421:9 [Google Scholar]
  128. Glover SCO, Mac Low MM. 2011. MNRAS 412:337 [Google Scholar]
  129. Goldsmith PF, Langer WD. 1978. Ap. J. 222:881 [Google Scholar]
  130. González-Alfonso E, Fischer J, Isaak K, Rykala A, Savini G. et al. 2010. Astron. Astrophys. 518:L43 [Google Scholar]
  131. Grazian A, Salimbeni S, Pentericci L, Fontana A, Nonino M. et al. 2007. Astron. Astrophys. 465:393–404 [Google Scholar]
  132. Greve TR, Bertoldi F, Smail I, Neri R, Chapman SC. et al. 2005. MNRAS 359:1165–83 [Google Scholar]
  133. Greve TR, Ivison RJ, Papadopoulos PP. 2004. Astron. Astrophys. 419:99–107 [Google Scholar]
  134. Greve TR, Papadopoulos PP, Gao Y, Radford S. 2009. Ap. J. 692:1432–46 [Google Scholar]
  135. Greve TR, Pope A, Scott D, Ivison RJ, Borys C. et al. 2008. MNRAS 389:1489–506 [Google Scholar]
  136. Gromke JJ, Bradford CM, Bock JJ, Dragovan M, Duband L. et al. 2002. Low Temp. Detect. 605:543–46 [Google Scholar]
  137. Guilloteau S, Omont A, McMahon RG, Cox P, Petitjean P. 1997. Astron. Astrophys. 328:L1 [Google Scholar]
  138. Guo Q, White S. 2008. Ap. J. 384:2–10 [Google Scholar]
  139. Habart E, Dartois E, Abergel A, Baluteau J-P, Naylor D. et al. 2010. Astron. Astrophys. 518:L116 [Google Scholar]
  140. Hailey-Dunsheath S, Nikola T, Stacey GJ, Oberst T, Parshley S. et al. 2010. Ap. J. Lett. 714:L162–66 [Google Scholar]
  141. Hailey-Dunsheath S, Sturm E, Fischer J, Sternberg A, Graciá-Carpio J. et al. 2012. Ap. J. 755:57 [Google Scholar]
  142. Harris AI, Baker AJ, Frayer DT, Smail I, Swinbank AM. et al. 2012. Ap. J. 752:152 [Google Scholar]
  143. Harris AI, Baker AJ, Zonak S, Sharon C, Genzel R. et al. 2010. Ap. J. 723:1139–49 [Google Scholar]
  144. Harris AI, Stutzki J, Graf UU, Russell APG, Genzel R, Hills RE. 1991. Ap. J. Lett. 382:L75 [Google Scholar]
  145. Hayward CC, Jonsson P, Kereš D, Magnelli B, Hernquist L, Cox T. 2012. MNRAS 424:951 [Google Scholar]
  146. Helou G, Soifer B, Rowan-Robinson M. 1985. Ap. J. 298:L7 [Google Scholar]
  147. Henkel C, Downes D, Weiß A, Riechers D, Walter F. 2010. Astron. Astrophys. 516:111 [Google Scholar]
  148. Henkel C, Mauersberger R, Wiklind T, Hüttemeister S, Lemme C, Millar TJ. 1993. Ap. J. 268:L17–20 [Google Scholar]
  149. Hezaveh YD, Marrone DP, Fassnacht CD, Spilker JS, Vieira JD. et al. 2013. Ap. J. 767:132 [Google Scholar]
  150. Hickox R, Wardlow JL, Smail I, Myers A, Alexander DM. et al. 2012. MNRAS 421:284 [Google Scholar]
  151. Hodge JA, Carilli CL, Walter F, de Blok WJG, Riechers D. et al. 2012. Ap. J. 760:11 [Google Scholar]
  152. Hollenbach D, Kaufman MJ, Bergin EA, Melnick GJ. 2008. Ap. J. 690:1497–521 [Google Scholar]
  153. Hollenbach DJ, Tielens AGGM. 1999. Rev. Mod. Phys. 71:173–230 [Google Scholar]
  154. Hopkins PF, Bundy K, Croton D, Hernquist L, Kereš D. et al. 2010. Ap. J. 715:202–29 [Google Scholar]
  155. Hopkins PF, Hernquist L, Cox TJ, Di Matteo T, Robertson B, Springel V. 2006. Ap. J. Suppl. 163:1–49 [Google Scholar]
  156. Hughes DH, Serjeant S, Dunlop J, Rowan-Robinson M, Blain A. et al. 1998. Nature 394:241–47 [Google Scholar]
  157. Hunter SD, Bertsch DL, Catelli JR, Dame TM, Digel SW. et al. 1997. Ap. J. 481:205–40 [Google Scholar]
  158. Ikeda M, Oka T, Tatematsu K, Sekimoto Y, Yamamoto S. 2002. Ap. J. Suppl. 139:467–85 [Google Scholar]
  159. Ilbert O, Salvato M, Le Floc'h E, Aussel H, Capak P. et al. 2010. Ap. J. 709:644–63 [Google Scholar]
  160. Iono D, Tamura Y, Nakanishi K, Kawabe R, Kohno K. et al. 2006a. Publ. Astron. Soc. Pac. 58:957–63 [Google Scholar]
  161. Iono D, Yun MS, Elvis M, Peck AB, Ho PTP. et al. 2006b. Ap. J. 645:L97–100 [Google Scholar]
  162. Israel FP. 2005. Ap. J. 295:171–76 [Google Scholar]
  163. Israel FP, Baas F. 2002. Nature 383:82–90 [Google Scholar]
  164. Israel FP, Maloney P. 2011. Astron. Astrophys. 531:A19 [Google Scholar]
  165. Ivison RJ, Greve TR, Dunlop JS, Peacock J, Egami E. et al. 2007. MNRAS 380:199–228 [Google Scholar]
  166. Ivison RJ, Papadopoulos PP, Smail I, Greve TR, Thomson A. et al. 2011. MNRAS 412:1913–25 [Google Scholar]
  167. Ivison RJ, Smail I, Amblard A, Arumugam V, De Breuck C. et al. 2012. MNRAS 425:1320 [Google Scholar]
  168. Ivison RJ, Smail I, Barger A, Kneib J-P, Blain AW. et al. 2000. MNRAS 315:209–22 [Google Scholar]
  169. Ivison RJ, Smail I, Le Borgne J, Blain AW, Kneib J-P. et al. 1998. MNRAS 298:583–93 [Google Scholar]
  170. Ivison RJ, Smail I, Papadopoulos PP, Wold I, Richard J. et al. 2010a. MNRAS 404:198–205 [Google Scholar]
  171. Ivison RJ, Swinbank AM, Swinyard B, Smail I, Pearson C. et al. 2010b. Astron. Astrophys. 518:L35 [Google Scholar]
  172. Jiang L, Fan X, Brandt WN, Carilli CL, Egami E. et al. 2010. Nature 464:380–83 [Google Scholar]
  173. Kacprzak GG, Churchill CW, Steidel CC, Spitler LR, Holtzman JA. 2012. MNRAS 427:3029 [Google Scholar]
  174. Kennicutt RC Jr. 1998a. Annu. Rev. Astron. Astrophys. 36:189–232 [Google Scholar]
  175. Kennicutt RC Jr. 1998b. Ap. J. 498:541 [Google Scholar]
  176. Kennicutt RC Jr, Calzetti D, Walter F, Helou G, Hollenbach DJ. et al. 2007. Ap. J. 671:333–48 [Google Scholar]
  177. Kennicutt RC Jr, Evans NJ. 2012. Annu. Rev. Astron. Astrophys. 50:531–608 [Google Scholar]
  178. Kereš D, Katz N, Fardal M, Davé R, Weinberg DH. 2009. Ap. J. 395:160–79 [Google Scholar]
  179. Kereš D, Katz N, Weinberg D, Davé R. 2005. MNRAS 363:2–28 [Google Scholar]
  180. Kereš D, Yun MS, Young JS. 2003. Ap. J. 582:659–67 [Google Scholar]
  181. Khandai N, Feng Y, DeGraf C, Di Matteo T, Croft RAC. 2012. Ap. J. 423:2397–406 [Google Scholar]
  182. Klypin AA, Trujillo-Gomez S, Primack J. 2011. Ap. J. 740:102 [Google Scholar]
  183. Komatsu E, Smith KM, Dunkley J, Bennett C, Gold B. et al. 2011. Ap. J. Suppl. 192:18 [Google Scholar]
  184. Kovács A, Chapman SC, Dowell CD, Blain AW, Ivison RJ. et al. 2006. Ap. J. 650:592–603 [Google Scholar]
  185. Kovács A, Omont A, Beelen A, Lonsdale C, Polletta M. et al. 2010. Ap. J. 717:29–39 [Google Scholar]
  186. Kriek M, van Dokkum PG, Franx M, Quadri R, Gawiser E. et al. 2006. Ap. J. 649:L71–74 [Google Scholar]
  187. Kristensen LE, Ravkilde TL, Pineau des Forêts G, Cabrit S, Field D. et al. 2008. Astron. Astrophys. 477:203–11 [Google Scholar]
  188. Krumholz MR, Dekel A, McKee CF. 2011. Ap. J. 745:69 [Google Scholar]
  189. Krumholz MR, Thompson TA. 2012. Ap. J. 760:155 [Google Scholar]
  190. Lagos CDP, Baugh CM, Lacey CG, Benson AJ, Kim H-S, Power C. 2011. MNRAS 418:1649–67 [Google Scholar]
  191. Lagos CDP, Bayet E, Baugh CM, Lacey CG, Bell T. et al. 2012. MNRAS 426:2142 [Google Scholar]
  192. Lapi A, Cavaliere A, Menci N. 2005. Ap. J. 619:60–72 [Google Scholar]
  193. Larson RB. 1981. MNRAS 194:809–26 [Google Scholar]
  194. Leipski C, Meisenheimer K, Klaas U, Walter F, Nielbock M. et al. 2010. Astron. Astrophys. 518:L34 [Google Scholar]
  195. Leipski C, Meisenheimer K, Walter F, Besel M-A, Dannerbauer H. et al. 2013. Ap. J. In press (arXiv:1305.3999) [Google Scholar]
  196. Lequeux J. 2005. The Interstellar Medium, EDP Sciences. Astron. Astrophys. Libr. Berlin: Springer [Google Scholar]
  197. Leroy AK, Bolatto A, Gordon K, Sandstrom K, Gratier P. et al. 2011. Ap. J. 737:12 [Google Scholar]
  198. Leroy AK, Walter F, Bigiel F, Usero A, Weiß A. et al. 2009. Astron. J. 137:4670 [Google Scholar]
  199. Leroy AK, Walter F, Brinks E, Bigiel F, de Blok WJG. et al. 2008. Astron. J. 136:2782–845 [Google Scholar]
  200. Leroy AK, Walter F, Sandstrom K, Schruba A, Munoz-Mateos J-C. et al. 2013. Astron. J. 146:219 [Google Scholar]
  201. Lestrade J-F, Combes F, Salomé P, Omont A, Bertoldi F. et al. 2010. Astron. Astrophys. 522:L4 [Google Scholar]
  202. Leurini S, Wyrowski F, Herpin F, van der Tak F, Guesten R, van Dishoeck EF. 2013. Astron. Astrophys. 550:10 [Google Scholar]
  203. Li Y, Hernquist L, Robertson B, Cox TJ, Hopkins PF. et al. 2007. Ap. J. 665:187–208 [Google Scholar]
  204. Lilly SJ, Le Fevre O, Hammer F, Crampton D. 1996. Ap. J. Lett. 460:L1 [Google Scholar]
  205. Liu G, Koda J, Calzetti D, Fukuhara M, Momose R. 2011. Ap. J. 735:63 [Google Scholar]
  206. Luhman ML, Satyapal S, Fischer J, Wolfire MG, Sturm E. et al. 2003. Ap. J. 594:758 [Google Scholar]
  207. Madau P, Ferguson HC, Dickinson ME, Giavalisco M, Steidel CC, Fruchter A. 1996. MNRAS 283:1388–404 [Google Scholar]
  208. Magdis GE, Daddi E, Béthermin M, Sargent M, Elbaz D. et al. 2012a. Ap. J. 760:6 [Google Scholar]
  209. Magdis GE, Daddi E, Elbaz D, Sargent M, Dickinson M. et al. 2011. Ap. J. Lett. 740:L15 [Google Scholar]
  210. Magdis GE, Daddi E, Sargent M, Sargent M, Elbaz D. et al. 2012b. Ap. J. Lett. 758:L9 [Google Scholar]
  211. Magnelli B, Elbaz D, Chary RR, Dickinson M, Le Borgne D. et al. 2011. Astron. Astrophys. 528:A35 [Google Scholar]
  212. Magnelli B, Lutz D, Berta S, Altieri B, Andreani P. et al. 2010. Astron. Astrophys. 518:L28 [Google Scholar]
  213. Magnelli B, Saintonge A, Lutz D, Tacconi LJ, Berta S. et al. 2012. Astron. Astrophys. 548:A22 [Google Scholar]
  214. Maiolino R, Neri R, Beelen A, Bertoldi F, Carilli CL. et al. 2005. Astron. Astrophys. 472:2L33–37 [Google Scholar]
  215. Maiolino R, Caselli P, Nagao T, Walmsley M, De Breuck C, Meneghetti M. 2009. Astron. Astrophys. 500:L1–4 [Google Scholar]
  216. Maiolino R, Gallerani S, Neri R, Cicone C, Ferrara A. et al. 2012. MNRAS 425:L66–70 [Google Scholar]
  217. Malhotra S, Helou G, Stacey G, Hollenbach D, Lord S. et al. 1997. Ap. J. 491:L27–30 [Google Scholar]
  218. Malhotra S, Kaufman MJ, Hollenbach D, Helou G, Rubin R. et al. 2001. Ap. J. 561:766–86 [Google Scholar]
  219. Manoj P, Watson DM, Neufeld DA, Megeath ST, Vavrek R. et al. 2013. Ap. J. 763:83 [Google Scholar]
  220. Mao R-Q, Henkel C, Schulz A, Zielinsky M, Mauersberger R. et al. 2000. Ap. J. 358:433–50 [Google Scholar]
  221. Marchesini D, van Dokkum PG, Förster Schreiber NM, Franx M, Labbé I, Wuyts S. 2009. Ap. J. 701:1765–96 [Google Scholar]
  222. Martig M, Bournaud F, Teyssier R, Dekel A. 2009. Ap. J. 707:250–67 [Google Scholar]
  223. Martin CL. 1998. Ap. J. 506:222–52 [Google Scholar]
  224. McNamara B, Nulsen P. 2007. Annu. Rev. Astron. Astrophys. 45:117 [Google Scholar]
  225. Meijerink R, Kristensen LE, Weiß A, van der Werf PP, Walter F. et al. 2013. Ap. J. Lett. 762:L16 [Google Scholar]
  226. Meijerink R, Spaans M. 2005. Astron. Astrophys. 436:397 [Google Scholar]
  227. Meijerink R, Spaans M, Israel FP. 2006. Ap. J. 650:L103–6 [Google Scholar]
  228. Miley G, De Breuck C. 2008. Astron. Astrophys. Rev. 15:67–144 [Google Scholar]
  229. Momjian E, Carilli CL, Riechers DA, Walter F. 2007. Astron. J. 134:694–97 [Google Scholar]
  230. Mookerjea B, Kramer C, Buchbender C, Boquien M, Verley S. et al. 2011. Astron. Astrophys. 532:A152 [Google Scholar]
  231. Moster BP, Somerville RS, Maulbetsch C, van den Bosch FC, Maccio AV. et al. 2010. Ap. J. 710:903–23 [Google Scholar]
  232. Murphy EJ, Chary R-R, Dickinson M, Pope A, Frayer DT, Lin L. 2011. Ap. J. 732:126 [Google Scholar]
  233. Naab T, Johansson PH, Ostriker JP. 2009. Ap. J. 699:L178–82 [Google Scholar]
  234. Nagao T, Maiolino R, De Breuck C, Caselli P, Hatsukade B, Saigo K. 2012. Astron. Astrophys. 542:L34 [Google Scholar]
  235. Narayanan D, Cox TJ, Hayward CC, Hernquist L. 2010a. Ap. J. 412:287–94 [Google Scholar]
  236. Narayanan D, Hayward CC, Cox TJ, Hernquist L, Jonsson P. et al. 2010b. Ap. J. 401:1613–19 [Google Scholar]
  237. Narayanan D, Hopkins P. 2013. MNRAS Accepted (arXiv:1210.2724) [Google Scholar]
  238. Narayanan D, Krumholz MR, Ostriker EC, Hernquist L. 2012. MNRAS 421:3127 [Google Scholar]
  239. Negrello M, Hopwood R, De Zotti G, Cooray A, Verma A. et al. 2010. Science 330:800 [Google Scholar]
  240. Neri R, Genzel R, Ivison RJ, Bertoldi F, Blain AW. et al. 2003. Ap. J. 597:L113–16 [Google Scholar]
  241. Neufeld DA, Kaufman MJ. 1993. Ap. J. 418:263 [Google Scholar]
  242. Neufeld DA, Lepp S, Melnick GJ. 1995. Ap. J. Suppl. 100:132 [Google Scholar]
  243. Nikola T, Stacey GJ, Brisbin D, Ferkinhoff C, Hailey-Dunsheath S. et al. 2011. Ap. J. 742:88 [Google Scholar]
  244. Noeske K, Weiner B, Faber S, Papovich C, Koo D. et al. 2007. Ap. J. Lett. 660:L43–46 [Google Scholar]
  245. Oberst T, Parshley S, Stacey GJ, Nikola T, Löhr A. et al. 2006. Ap. J. 652:L125–28 [Google Scholar]
  246. Obreschkow D, Croton D, De Lucia G, Khochfar S, Rawlings S. 2009a. Ap. J. 698:1467 [Google Scholar]
  247. Obreschkow D, Heywood I, Klöckner H-R, Rawlings S. 2009b. Ap. J. 702:1321–35 [Google Scholar]
  248. Ojha R, Stark AA, Hsieh HH, Lane AP, Chamberlin RA. et al. 2001. Ap. J. 548:253–57 [Google Scholar]
  249. Omont A. 2007. Rep. Prog. Phys. 70:1099 [Google Scholar]
  250. Omont A, Cox P, Bertoldi F, McMahon R, Carilli C, Isaak KG. 2001. Astron. Astrophys. 374:371–81 [Google Scholar]
  251. Omont A, Neri R, Cox P, Lupu R, Guélin M. et al. 2011. Astron. Astrophys. 530:L3 [Google Scholar]
  252. Omont A, Petitjean P, Guilloteau S, McMahon RG, Solomon PM, Pécontal E. 1996. Nature 382:428–31 [Google Scholar]
  253. Onodera S, Kuno N, Tosaki T, Kohno K, Nakanishi K. et al. 2010. Ap. J. Lett. 722:L127 [Google Scholar]
  254. Ostriker E, Shetty R. 2011. Ap. J. 731:41 [Google Scholar]
  255. Pannella M, Carilli CL, Daddi E, McCracken H, Owen F. et al. 2009. Ap. J. Lett. 698:L116–20 [Google Scholar]
  256. Panuzzo P, Rangwala N, Rykala A, Isaak KG, Glenn J. et al. 2010. Astron. Astrophys. 518:L37 [Google Scholar]
  257. Papadopoulos PP, Pelupessy FI. 2010. Ap. J. 717:1037–42 [Google Scholar]
  258. Papadopoulos PP, Röttgering H, van der Werf PP, Guilloteau S, Omont A. et al. 2000. Ap. J. 528:626–36 [Google Scholar]
  259. Papadopoulos PP, van der Werf P, Xilouris E, Isaak KG, Gao Y. 2012. Ap. J. 751:10 [Google Scholar]
  260. Peacock JA, Cole S, Norberg P, Baugh CM, Bland-Hawthorn J. et al. 2001. Nature 410:169–73 [Google Scholar]
  261. Peng Y-J, Lilly SJ, Kovac K, Bolzonella M, Pozzetti L. et al. 2010. Ap. J. 721:193–221 [Google Scholar]
  262. Pentericci L, Fontana A, Vanzella E, Castellano M, Grazian A. et al. 2011. Ap. J. 743:132 [Google Scholar]
  263. Perley R, Chandler CJ, Butler B, Wrobel J. 2011. Ap. J. Lett. 739:L1 [Google Scholar]
  264. Pety J, Beelen A, Cox P, Downes D, Omont A. et al. 2004. Astron. Astrophys. 428:L21–24 [Google Scholar]
  265. Ade PAR, Aghanim N, Armitage-Caplan C, Arnaud M, Ashdown M. Planck Collab et al. 2013. In press (arXiv:1303.5062)
  266. Pope A, Scott D, Dickinson M, Chary R-R, Morrison G. et al. 2006. MNRAS 370:1185–207 [Google Scholar]
  267. Power C, Baugh C, Lacey CG. 2010. Ap. J. 406:43–59 [Google Scholar]
  268. Priddey RS, Isaak KG, McMahon RG, Robson EI, Pearson C. 2003. MNRAS 344:L74–78 [Google Scholar]
  269. Rahman N, Bolatto AD, Wong T, Leroy AK, Walter F. et al. 2011. Ap. J. 730:72 [Google Scholar]
  270. Rahman N, Bolatto AD, Xue R, Wong T, Leroy AK. et al. 2012. Ap. J. 745:183 [Google Scholar]
  271. Reddy NA, Steidel CC, Pettini M, Adelberger KL, Shapley AE. et al. 2008. Ap. J. Suppl. 175:48–85 [Google Scholar]
  272. Reid BA, Percival WJ, Eisenstein DJ, Verde L, Spergel DN. et al. 2010. MNRAS 404:60–85 [Google Scholar]
  273. Renzini A. 2006. Annu. Rev. Astron. Astrophys. 44:141–92 [Google Scholar]
  274. Ribaudo J, Lehner N, Howk JC, Werk JK, Tripp TM. et al. 2011. Ap. J. 743:207 [Google Scholar]
  275. Riechers DA. 2011. Ap. J. 730:108 [Google Scholar]
  276. Riechers DA, Bradford CM, Clements DL, Dowell CD, Pérez-Fournon I. et al. 2013. Nature 496:329–33 [Google Scholar]
  277. Riechers DA, Capak P, Carilli CL, Cox P, Neri R. et al. 2010a. Ap. J. Lett. 720:L131–36 [Google Scholar]
  278. Riechers DA, Carilli CL, Maddalena RJ, Hodge J, Harris AI. et al. 2011a. Ap. J. Lett. 739:L32 [Google Scholar]
  279. Riechers DA, Carilli CL, Walter F, Momjian E. 2010b. Ap. J. Lett. 724:L153–57 [Google Scholar]
  280. Riechers DA, Cooray A, Omont A, Neri R, Harris AI. et al. 2011b. Ap. J. Lett. 733:L12 [Google Scholar]
  281. Riechers DA, Hodge J, Walter F, Carilli CL, Bertoldi F. 2011c. Ap. J. Lett. 739:L31 [Google Scholar]
  282. Riechers DA, Walter F, Bertoldi F, Carilli CL, Aravena M. et al. 2009a. Ap. J. 703:1338–45 [Google Scholar]
  283. Riechers DA, Walter F, Brewer BJ, Carilli CL, Lewis GF. et al. 2008a. Ap. J. 686:851–58 [Google Scholar]
  284. Riechers DA, Walter F, Carilli CL, Bertoldi F. 2007a. Ap. J. Lett. 671:L13–16 [Google Scholar]
  285. Riechers DA, Walter F, Carilli CL, Bertoldi F, Momjian E. 2008b. Ap. J. 686:L9–12 [Google Scholar]
  286. Riechers DA, Walter F, Carilli CL, Cox P, Weiß A. et al. 2011d. Ap. J. 726:50 [Google Scholar]
  287. Riechers DA, Walter F, Carilli CL, Knudsen KK, Lo KY. et al. 2006a. Ap. J. 650:604–13 [Google Scholar]
  288. Riechers DA, Walter F, Carilli CL, Lewis GF. 2009b. Ap. J. 690:463–85 [Google Scholar]
  289. Riechers DA, Walter F, Carilli CL, Weiß A, Bertoldi F. et al. 2006b. Ap. J. Lett. 645:L13–16 [Google Scholar]
  290. Riechers DA, Walter F, Cox P, Carilli CL, Weiß A. et al. 2007b. Ap. J. 666:778–83 [Google Scholar]
  291. Riechers DA, Weiß A, Walter F, Wagg J. 2010c. Ap. J. 725:1032–39 [Google Scholar]
  292. Robertson B, Bullock JS, Cox TJ, Di Matteo T, Hernquist L. et al. 2006. Ap. J. 645:986–1000 [Google Scholar]
  293. Robertson BE, Bullock JS. 2008. Ap. J. 685:L27–30 [Google Scholar]
  294. Rodighiero G, Daddi E, Baronchelli I, Cimatti A, Renzini A. et al. 2011. Ap. J. Lett. 739:L40 [Google Scholar]
  295. Rodriguez-Fernandez NJ, Braine J, Brouillet N, Combes F. 2006. Astron. Astrophys. 453:77–82 [Google Scholar]
  296. Röllig M, Abel NP, Bell T, Bensch F, Black J. et al. 2007. Astron. Astrophys. 467:187 [Google Scholar]
  297. Salomé P, Guélin M, Downes D, Cox P, Guilloteau S. et al. 2012. Astron. Astrophys. 545:A57 [Google Scholar]
  298. Sanders DB, Mazzarella JM, Kim DC, Surace J, Soifer B. 2003. Astron. J. 126:1607–64 [Google Scholar]
  299. Sandstrom K, Leroy A, Walter F, Bolatto A, Croxall K. et al. 2013. Ap. J. Submitted (arXiv:1212.1208) [Google Scholar]
  300. Sargent MT, Béthermin M, Daddi E, Elbaz D. 2012. Ap. J. 747:L31 [Google Scholar]
  301. Sargsyan L, Lebouteiller V, Weedman D, Spoon H, Bernard-Salas J. et al. 2012. Ap. J. 755:171 [Google Scholar]
  302. Schinnerer E, Carilli CL, Capak P, Martinez-Sansigre A, Scoville NZ. et al. 2008. Ap. J. Lett. 689:L5–8 [Google Scholar]
  303. Schmidt M. 1959. Ap. J. 129:243 [Google Scholar]
  304. Schöier FL, van der Tak FFS, van Dishoeck EF, Black JH. 2005. Astron. Astrophys. 432:369–79 [Google Scholar]
  305. Schruba A, Leroy AK, Walter F, Sandstrom K, Rosolowsky E. 2010. Ap. J. 722:1699–706 [Google Scholar]
  306. Scott K, Lupu R, Aguirre J, Auld R, Aussel H. et al. 2011. Ap. J. 733:29 [Google Scholar]
  307. Scoville NZ. 2012. Proc. XXIII Canary Islands Winter Sch. Astrophys.: Secular Evolution of Galaxies J Falcon-Barroso, JH Knapen Cambridge, UK: Cambridge Univ Press (arXiv:1210.6990) [Google Scholar]
  308. Scoville NZ, Frayer DT, Schinnerer E, Christopher M. 2003. Ap. J. Lett. 585:L105 [Google Scholar]
  309. Scoville NZ, Yun MS, Windhorst RA, Keel WC, Armus L. 1997. Ap. J. Lett. 485:L21 [Google Scholar]
  310. Shapiro KL, Genzel R, Förster Schreiber NM, Tacconi LJ, Bouché N. et al. 2008. Ap. J. 682:231–51 [Google Scholar]
  311. Shapley AE. 2011. Annu. Rev. Astron. Astrophys. 49:525–80 [Google Scholar]
  312. Shetty R, Glover SC, Dullemond CP, Klessen RS. 2011. MNRAS 412:1686 [Google Scholar]
  313. Shields G, Menezes K, Massart C, Vanden Bout P. 2006. Ap. J. 641:683–88 [Google Scholar]
  314. Silk J, Mamon GA. 2012. Res. Astron. Astrophys. 12:917 [Google Scholar]
  315. Silva L, Granato GL, Bressan A, Danese L. 1998. Ap. J. 509:103 [Google Scholar]
  316. Smail I, Ivison RJ, Blain AW. 1997. Ap. J. Lett. 490:L5 [Google Scholar]
  317. Solomon P, Vanden Bout P, Carilli CL, Guélin M. 2003. Nature 426:636–38 [Google Scholar]
  318. Solomon PM, Downes D, Radford S. 1992. Ap. J. 398:L29–32 [Google Scholar]
  319. Solomon PM, Downes D, Radford S, Barrett J. 1997. Ap. J. 478:144–61 [Google Scholar]
  320. Solomon PM, Rivolo A, Barrett J, Yahil A. 1987. Ap. J. 319:730–41 [Google Scholar]
  321. Solomon PM, Vanden Bout PA. 2005. Annu. Rev. Astron. Astrophys. 43:677–725 [Google Scholar]
  322. Spergel D, Bean R, Doré O, Nolta M, Bennett C. et al. 2007. Ap. J. Suppl. 170:377–408 [Google Scholar]
  323. Spinoglio L, Malkan MA. 1992. Ap. J. 399:504 [Google Scholar]
  324. Spinoglio L, Pereira-Santaella M, Busquet G, Schirm MRP, Wilson CD. et al. 2012. Ap. J. 758:108 [Google Scholar]
  325. Spitzer L. 1978. Physical Processes in the Interstellar Medium. New York: Wiley-Intersci. [Google Scholar]
  326. Springel V, White S, Jenkins A, Frenk C, Yoshida N. et al. 2005. Nature 435:629–36 [Google Scholar]
  327. Stacey GJ. 2011. IEEE Trans. Terahertz Sci. Technol. 1:241 [Google Scholar]
  328. Stacey GJ, Geis N, Genzel R, Lugten JB, Poglitsch A. et al. 1991. Ap. J. 373:423 [Google Scholar]
  329. Stacey GJ, Hailey-Dunsheath S, Ferkinhoff C, Nikola T, Parshley S. et al. 2010. Ap. J. 724:957–74 [Google Scholar]
  330. Steidel CC, Shapley AE, Pettini M, Adelberger KL, Erb DK. et al. 2004. Ap. J. 604:534–50 [Google Scholar]
  331. Strickland DK, Heckman TM. 2009. Ap. J. 697:2030–56 [Google Scholar]
  332. Strong AW, Mattox JR. 1996. Astron. Astrophys. 308:L21–24 [Google Scholar]
  333. Sturm E, Verma A, Graciá-Carpio J, Hailey-Dunsheath S, Contursi A. et al. 2010. Astron. Astrophys. 518:L36 [Google Scholar]
  334. Stutzki J, Graf UU, Haas S, Honingh CE, Hottgenroth D. et al. 1997. Ap. J. 477:L33–36 [Google Scholar]
  335. Swinbank AM, Chapman SC, Smail I, Lindner C, Borys C. et al. 2006. MNRAS 371:465–76 [Google Scholar]
  336. Swinbank AM, Karim A, Smail I, Hodge J, Walter F. et al. 2012a. MNRAS 427:1066 [Google Scholar]
  337. Swinbank AM, Papadopoulos PP, Cox P, Krips M, Ivison RJ. et al. 2011. Ap. J. 742:11 [Google Scholar]
  338. Swinbank AM, Smail I, Longmore S, Harris AI, Baker A. et al. 2010. Nature 464:733 [Google Scholar]
  339. Swinbank AM, Smail I, Sobral D, Theuns T, Best PN, Geach JE. 2012b. Ap. J. 760:130 [Google Scholar]
  340. Tacconi LJ, Genzel R, Neri R, Cox P, Cooper MC. et al. 2010. Nature 463:781–84 [Google Scholar]
  341. Tacconi LJ, Genzel R, Smail I, Neri R, Chapman SC. et al. 2008. Ap. J. 680:246–62 [Google Scholar]
  342. Tacconi LJ, Neri R, Chapman SC, Genzel R, Smail I. et al. 2006. Ap. J. 640:228–40 [Google Scholar]
  343. Tacconi LJ, Neri R, Genzel R, Combes F, Bolatto A. et al. 2013. Ap. J. 768:74 [Google Scholar]
  344. Thacker RJ, Scannapieco E, Couchman HMP. 2006. Ap. J. 653:86–100 [Google Scholar]
  345. Thompson TA. 2009. Ap. J. 408:128 [Google Scholar]
  346. Thompson TA, Quataert E, Murray N. 2005. Ap. J. 630:167–85 [Google Scholar]
  347. Thomson A, Ivison RJ, Smail I, Swinbank AM, Weiß A. et al. 2012. MNRAS 425:2203–11 [Google Scholar]
  348. Tielens AGGM. 2005. The Physics and Chemistry of the Interstellar Medium. Cambridge, UK: Cambridge Univ. Press [Google Scholar]
  349. Tielens AGGM, Tokunaga AT, Geballe TR, Baas F. 1991. Ap. J. 381:181 [Google Scholar]
  350. Townes CH, Schawlow AL. 1975. Microwave Spectroscopy New York: Dover [Google Scholar]
  351. Valtchanov I, Virdee J, Ivison RJ, Swinyard B, van der Werf P. et al. 2011. MNRAS 415:3473–84 [Google Scholar]
  352. van der Tak FFS, Black JH, Schöier FL, Jansen DJ, van Dishoeck EF. 2007. Astron. Astrophys. 468:627 [Google Scholar]
  353. van der Wel A, Rix HW, Holden B, Bell EF, Robaina A. 2009. Ap. J. Lett. 706:L120–23 [Google Scholar]
  354. van der Werf PP, Berciano Alba A, Spaans M, Loenen AF, Meijerink R. et al. 2011. Ap. J. Lett. 741:L38 [Google Scholar]
  355. van der Werf PP, Isaak KG, Meijerink R, Spaans M, Rykala A. et al. 2010. Astron. Astrophys. 518:L42 [Google Scholar]
  356. van Kempen TA, Kristensen LE, Herczeg GJ, Visser R, van Dishoeck EF. et al. 2010. Astron. Astrophys. 518:L121 [Google Scholar]
  357. Veilleux S, Cecil G, Bland-Hawthorn J. 2005. Annu. Rev. Astron. Astrophys. 43:769–86 [Google Scholar]
  358. Venemans BP, McMahon R, Walter F, Decarli R, Cox P. et al. 2012. Ap. J. Lett. 751:L25 [Google Scholar]
  359. Vieira JF, Marrone DP, Chapman SC, De Breuck C, Hezaveh YD. et al. 2013. Nature 495:344–47 [Google Scholar]
  360. Wagg J, Carilli CL, Wilner DJ, Cox P, De Breuck C. et al. 2010. Astron. Astrophys. 519:L1 [Google Scholar]
  361. Wagg J, Kanekar N. 2012. Ap. J. Lett. 751:L24 [Google Scholar]
  362. Wagg J, Kanekar N, Carilli CL. 2009. Ap. J. Lett. 697:L33–37 [Google Scholar]
  363. Wagg J, Wiklind T, Carilli CL, Espada D, Peck A. et al. 2012. Ap. J. Lett. 752:L30 [Google Scholar]
  364. Wagg J, Wilner DJ, Neri R, Downes D, Wiklind T. 2006. Ap. J. 651:46–50 [Google Scholar]
  365. Walter F, Bertoldi F, Carilli C, Cox P, Lo KY. et al. 2003. Nature 424:406 [Google Scholar]
  366. Walter F, Brinks E, de Blok WJG, Bigiel F, Kennicutt RC. et al. 2008. Astron. J. 136:2563 [Google Scholar]
  367. Walter F, Carilli C, Bertoldi F, Menten K, Cox P. et al. 2004. Ap. J. 615:L17–20 [Google Scholar]
  368. Walter F, Decarli R, Carilli C, Bertoldi F, Cox P. et al. 2012a. Nature 486:233–36 [Google Scholar]
  369. Walter F, Decarli R, Carilli C, Riechers D, Bertoldi F. et al. 2012b. Ap. J. 752:93 [Google Scholar]
  370. Walter F, Riechers D, Cox P, Neri R, Carilli C. et al. 2009a. Nature 457:699–701 [Google Scholar]
  371. Walter F, Weiß A, Downes D, Decarli R, Henkel C. 2011. Ap. J. 730:18 [Google Scholar]
  372. Walter F, Weiß A, Riechers DA, Carilli CL, Bertoldi F. et al. 2009b. Ap. J. Lett. 691:L1–4 [Google Scholar]
  373. Walter F, Weiß A, Scoville N. 2002. Ap. J. Lett. 580:L21 [Google Scholar]
  374. Wang R, Carilli CL, Neri R, Riechers DA, Wagg J. et al. 2010. Ap. J. 714:699–712 [Google Scholar]
  375. Wang R, Carilli CL, Wagg J, Bertoldi F, Walter F. et al. 2008a. Ap. J. 687:848–58 [Google Scholar]
  376. Wang R, Wagg J, Carilli CL, Benford DJ, Dowell CD. et al. 2008b. Astron. J. 135:1201–6 [Google Scholar]
  377. Wang R, Wagg J, Carilli CL, Walter F, Lentati L. et al. 2013. Ap. J. In press (arXiv:1302.4154) [Google Scholar]
  378. Ward JS, Zmuidzinas J, Harris AI, Isaak KG. 2003. Ap. J. 587:171–85 [Google Scholar]
  379. Weiß A, De Breuck C, Marrone DP, Vieira JD, Aguirre JE. et al. 2013. Ap. J. 767:88 [Google Scholar]
  380. Weiß A, Downes D, Henkel C, Walter F. 2005a. Astron. Astrophys. 429:L25–28 [Google Scholar]
  381. Weiß A, Downes D, Neri R, Walter F, Henkel C. et al. 2007a. Astron. Astrophys. 467:955–69 [Google Scholar]
  382. Weiß A, Downes D, Walter F, Henkel C. 2007b. ASP Conf. Ser. 375, From Z-Machines to ALMA: (Sub)Millimeter Spectroscopy of Galaxies25 [Google Scholar]
  383. Weiß A, Henkel C, Downes D, Walter F. 2003. Astron. Astrophys. 409:L41–45 [Google Scholar]
  384. Weiß A, Ivison RJ, Downes D, Walter F, Cirasuolo M, Menten KM. 2009. Ap. J. Lett. 705:L45–47 [Google Scholar]
  385. Weiß A, Requena-Torres MA, Güsten R, García-Burillo S, Harris AI. et al. 2010. Astron. Astrophys. 521:L1 [Google Scholar]
  386. Weiß A, Walter F, Downes D, Carilli CL, Henkel C. et al. 2012. Ap. J. 753:102 [Google Scholar]
  387. Weiß A, Walter F, Scoville NZ. 2005b. Astron. Astrophys. 438:533 [Google Scholar]
  388. White G, Ellison B, Claude S, Dent WRF, Matheson DN. 1994. Ap. J. 284:L23–26 [Google Scholar]
  389. White S, Rees MJ. 1978. MNRAS 183:341–58 [Google Scholar]
  390. Willott C, Omont A, Bergeron J. 2013. Ap. J. 770:13 [Google Scholar]
  391. Wilner DJ, Zhao JH, Ho PTP. 1995. Ap. J. Lett. 453:L91 [Google Scholar]
  392. Wolfe AM, Gawiser E, Prochaska JX. 2005. Annu. Rev. Astron. Astrophys. 43:861–918 [Google Scholar]
  393. Wootten A, Thompson AR. 2009. IEEE Proc. 97:1463 [Google Scholar]
  394. Wu J, Evans NJ II, Gao Y, Solomon PM, Shirley YL, Vanden Bout PA. 2005. Ap. J. Lett. 635:L173–76 [Google Scholar]
  395. Xia XY, Gao Y, Hao C-N, Tan QH, Mao S. et al. 2012. Ap. J. 750:92 [Google Scholar]
  396. Yan L, Tacconi LJ, Fiolet N, Sajina A, Omont A. et al. 2010. Ap. J. 714:100–14 [Google Scholar]
  397. Yang B, Stancil PC, Balakrishnan N, Forrey RC. 2010. Ap. J. 718:1062 [Google Scholar]
  398. Yang Y, Decarli R, Dannerbauer H, Walter F, Weiß A. et al. 2012. Ap. J. 744:178 [Google Scholar]
  399. Young JS, Scoville NZ. 1991. Annu. Rev. Astron. Astrophys. 29:581–625 [Google Scholar]
  400. Yun MS, Carilli CL. 2002. 56888–98
  401. Yun MS, Scott KS, Guo Y, Aretxaga I, Giavalisco M. et al. 2012. MNRAS 420:957 [Google Scholar]
/content/journals/10.1146/annurev-astro-082812-140953
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Cool Gas in High-Redshift Galaxies
Annual Review of Astronomy and Astrophysics 51, 105 (2013); https://doi.org/10.1146/annurev-astro-082812-140953
/content/journals/10.1146/annurev-astro-082812-140953
/content/journals/10.1146/annurev-astro-082812-140953
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Supplementary Data

  • Download the Supplemental Table (PDF).

    NOTE: A revised version of this table was posted online on Sept. 30, 2013.

  • Article Type: Review Article

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