Rotating Starburst Cores in Massive Galaxies at z = 2.5

We present spatially resolved ALMA observations of the CO emission line in two massive galaxies at z = 2.5 on the star-forming main sequence. Both galaxies have compact dusty star-forming cores with effective radii of and in the 870 μm continuum emission. The spatial extent of star-forming molecular gas is also compact with and , but more extended than the dust emission. Interpreting the observed position–velocity diagrams with dynamical models, we find the starburst cores to be rotation dominated with the ratio of the maximum rotation velocity to the local velocity dispersion of ( km s−1) and ( km s−1). Given that the descendants of these massive galaxies in the local universe are likely ellipticals with nearly an order of magnitude lower, the rapidly rotating galaxies would lose significant net angular momentum in the intervening time. The comparisons among dynamical, stellar, gas, and dust mass suggest that the starburst CO-to-H2 conversion factor of (K km s−1 pc−2)−1 is appropriate in the spatially resolved cores. The dense cores are likely to be formed in extreme environments similar to the central regions of local ultraluminous infrared galaxies. Our work also demonstrates that a combination of medium-resolution CO and high-resolution dust continuum observations is a powerful tool for characterizing the dynamical state of molecular gas in distant galaxies.

[1]  G. Zamorani,et al.  Dust Attenuation, Bulge Formation, and Inside-out Quenching of Star Formation in Star-forming Main Sequence Galaxies at z ∼ 2 , 2017, 1704.00733.

[2]  C. Breuck,et al.  ALMA reveals starburst-like interstellar medium conditions in a compact star-forming galaxy at z 2 using [CI] and CO , 2017, 1703.05764.

[3]  B. Weiner,et al.  PHIBSS: Unified Scaling Relations of Gas Depletion Time and Molecular Gas Fractions , 2017, 1702.01140.

[4]  C. C. Chen,et al.  KILOPARSEC-SCALE DUST DISKS IN HIGH-REDSHIFT LUMINOUS SUBMILLIMETER GALAXIES , 2016, The Astrophysical Journal.

[5]  S. Wuyts,et al.  BULGE-FORMING GALAXIES WITH AN EXTENDED ROTATING DISK AT z ∼ 2 , 2016, 1608.05412.

[6]  J. Trump,et al.  SUB-KILOPARSEC ALMA IMAGING OF COMPACT STAR-FORMING GALAXIES AT z ∼ 2.5: REVEALING THE FORMATION OF DENSE GALACTIC CORES IN THE PROGENITORS OF COMPACT QUIESCENT GALAXIES , 2016, 1607.01011.

[7]  R. Genzel,et al.  KMOS3D: DYNAMICAL CONSTRAINTS ON THE MASS BUDGET IN EARLY STAR-FORMING DISKS , 2016, 1603.03432.

[8]  M. Cappellari Structure and Kinematics of Early-Type Galaxies from Integral Field Spectroscopy , 2016, 1602.04267.

[9]  O. Ilbert,et al.  ISM MASSES AND THE STAR FORMATION LAW AT Z = 1 TO 6: ALMA OBSERVATIONS OF DUST CONTINUUM IN 145 GALAXIES IN THE COSMOS SURVEY FIELD , 2015, 1511.05149.

[10]  S. Wuyts,et al.  SPATIALLY RESOLVED DUST MAPS FROM BALMER DECREMENTS IN GALAXIES AT z ∼ 1.4 , 2015, 1511.04443.

[11]  R. Ellis,et al.  DISCOVERY OF A STRONGLY LENSED MASSIVE QUIESCENT GALAXY AT z = 2.636: SPATIALLY RESOLVED SPECTROSCOPY AND INDICATIONS OF ROTATION , 2015, 1509.04345.

[12]  J. Dunlop,et al.  SXDF-ALMA 1.5 arcmin2 DEEP SURVEY: A COMPACT DUSTY STAR-FORMING GALAXY AT z = 2.5 , 2015, 1508.05950.

[13]  S. Warren,et al.  HIGH-RESOLUTION IMAGING OF PHIBSS z ∼ 2 MAIN-SEQUENCE GALAXIES IN CO J = 1 → 0 , 2015, 1507.05652.

[14]  Guillermo Barro,et al.  Compaction and quenching of high-z galaxies in cosmological simulations: blue and red nuggets , 2014, 1412.4783.

[15]  V. Springel,et al.  The formation of massive, compact galaxies at z = 2 in the Illustris simulation , 2014, 1411.0667.

[16]  M. Fabricius,et al.  THE KMOS3D SURVEY: DESIGN, FIRST RESULTS, AND THE EVOLUTION OF GALAXY KINEMATICS FROM 0.7 ⩽ z ⩽ 2.7 , 2014, 1409.6791.

[17]  U. Padova,et al.  THE AGES, METALLICITIES, AND ELEMENT ABUNDANCE RATIOS OF MASSIVE QUENCHED GALAXIES AT z ≃ 1.6 ?> , 2014, 1411.5023.

[18]  Carnegie,et al.  STELLAR POPULATIONS FROM SPECTROSCOPY OF A LARGE SAMPLE OF QUIESCENT GALAXIES AT Z > 1: MEASURING THE CONTRIBUTION OF PROGENITOR BIAS TO EARLY SIZE GROWTH , 2014, 1409.7088.

[19]  Steward Observatory,et al.  The Hawk-I UDS and GOODS Survey (HUGS): Survey design and deep K-band number counts , 2014, 1409.7082.

[20]  H. Rix,et al.  GEOMETRY OF STAR-FORMING GALAXIES FROM SDSS, 3D-HST, AND CANDELS , 2014, 1407.4233.

[21]  H. Rix,et al.  A massive galaxy in its core formation phase three billion years after the Big Bang , 2014, Nature.

[22]  J. Trump,et al.  KECK-I MOSFIRE SPECTROSCOPY OF COMPACT STAR-FORMING GALAXIES AT z ≳ 2: HIGH VELOCITY DISPERSIONS IN PROGENITORS OF COMPACT QUIESCENT GALAXIES , 2014, 1405.7042.

[23]  J. Silverman,et al.  A HIGHLY CONSISTENT FRAMEWORK FOR THE EVOLUTION OF THE STAR-FORMING “MAIN SEQUENCE” FROM z ∼ 0–6 , 2014, 1405.2041.

[24]  S. Wuyts,et al.  DENSE CORES IN GALAXIES OUT TO z = 2.5 IN SDSS, UltraVISTA, AND THE FIVE 3D-HST/CANDELS FIELDS , 2014, 1404.4874.

[25]  Shannon G. Patel,et al.  3D-HST WFC3-SELECTED PHOTOMETRIC CATALOGS IN THE FIVE CANDELS/3D-HST FIELDS: PHOTOMETRY, PHOTOMETRIC REDSHIFTS, AND STELLAR MASSES , 2014, 1403.3689.

[26]  S. Muller,et al.  UVMULTIFIT: A versatile tool for fitting astronomical radio interferometric data , 2014, 1401.4984.

[27]  D. Elbaz,et al.  REGULARITY UNDERLYING COMPLEXITY: A REDSHIFT-INDEPENDENT DESCRIPTION OF THE CONTINUOUS VARIATION OF GALAXY-SCALE MOLECULAR GAS PROPERTIES IN THE MASS-STAR FORMATION RATE PLANE , 2013, 1303.4392.

[28]  M. Hayashi,et al.  NATURE OF Hα SELECTED GALAXIES AT z > 2. I. MAIN-SEQUENCE AND DUSTY STAR-FORMING GALAXIES , 2013, 1311.4259.

[29]  S. Faber,et al.  A LINK BETWEEN STAR FORMATION QUENCHING AND INNER STELLAR MASS DENSITY IN SLOAN DIGITAL SKY SURVEY CENTRAL GALAXIES , 2013, 1308.5224.

[30]  D. L. Clements,et al.  HERSCHEL-ATLAS: A BINARY HyLIRG PINPOINTING A CLUSTER OF STARBURSTING PROTOELLIPTICALS , 2013, 1302.4436.

[31]  A. Bolatto,et al.  The CO-to-H2 Conversion Factor , 2013, 1301.3498.

[32]  D. Calzetti,et al.  Mapping the cold dust temperatures and masses of nearby KINGFISH galaxies with Herschel , 2012, 1207.1301.

[33]  E. Ostriker,et al.  A general model for the CO–H2 conversion factor in galaxies with applications to the star formation law , 2011, 1110.3791.

[34]  G. Cresci,et al.  HOW WELL CAN WE MEASURE THE INTRINSIC VELOCITY DISPERSION OF DISTANT DISK GALAXIES? , 2011, 1108.0285.

[35]  A. Koekemoer,et al.  GALAXY STRUCTURE AND MODE OF STAR FORMATION IN THE SFR–MASS PLANE FROM z ∼ 2.5 TO z ∼ 0.1 , 2011, 1107.0317.

[36]  Jordi Cepa,et al.  ON STAR FORMATION RATES AND STAR FORMATION HISTORIES OF GALAXIES OUT TO z ∼ 3 , 2011, 1106.5502.

[37]  B. Magnelli,et al.  PACS Evolutionary Probe (PEP) – a Herschel key program , 2011, 1106.3285.

[38]  M. Baes,et al.  The Herschel Virgo Cluster Survey - IX. Dust-to-gas mass ratio and metallicity gradients in four Virgo spiral galaxies , 2011, 1106.0618.

[39]  G. Cresci,et al.  HIGH-REDSHIFT STAR-FORMING GALAXIES: ANGULAR MOMENTUM AND BARYON FRACTION, TURBULENT PRESSURE EFFECTS, AND THE ORIGIN OF TURBULENCE , 2009, 0907.4777.

[40]  Garth D. Illingworth,et al.  AN ULTRA-DEEP NEAR-INFRARED SPECTRUM OF A COMPACT QUIESCENT GALAXY AT z = 2.2 , 2009, 0905.1692.

[41]  James E. Larkin,et al.  THE KILOPARSEC-SCALE KINEMATICS OF HIGH-REDSHIFT STAR-FORMING GALAXIES , 2009, 0901.2930.

[42]  Christine D. Wilson,et al.  Luminous Infrared Galaxies with the Submillimeter Array. I. Survey Overview and the Central Gas to Dust Ratio , 2008, 0806.3002.

[43]  A. Cimatti,et al.  Submillimeter Galaxies at z ~ 2: Evidence for Major Mergers and Constraints on Lifetimes, IMF, and CO-H2 Conversion Factor , 2008, 0801.3650.

[44]  G. Bruzual,et al.  Stellar population synthesis at the resolution of 2003 , 2003, astro-ph/0309134.

[45]  L. Dunne,et al.  Type II supernovae as a significant source of interstellar dust , 2003, Nature.

[46]  G. Chabrier Galactic Stellar and Substellar Initial Mass Function , 2003, astro-ph/0304382.

[47]  Loretta Dunne,et al.  The SCUBA Local Universe Galaxy Survey – II. 450‐μm data: evidence for cold dust in bright IRAS galaxies , 2001, astro-ph/0106362.

[48]  A. Kinney,et al.  The Dust Content and Opacity of Actively Star-forming Galaxies , 1999, astro-ph/9911459.

[49]  P. Solomon,et al.  Rotating Nuclear Rings and Extreme Starbursts in Ultraluminous Galaxies , 1998, astro-ph/9806377.