IGRINS SPECTROSCOPY OF CLASS I SOURCES: IRAS 03445+3242 AND IRAS 04239+2436

We have detected molecular and atomic line emission from the hot and warm disks of two Class I sources, IRAS 03445+3242 and IRAS 04239+2436, using the high-resolution Immersion GRating INfrared Spectrograph (IGRINS). CO overtone band transitions and near-IR lines of Na i and Ca i, all in emission, trace the hot inner disk, while CO rovibrational absorption spectra of the first overtone transition trace the warm gas within the inner few AU of the disk. The emission-line profiles for both sources show evidence for Keplerian disks. A thin Keplerian disk with power-law temperature and column density profiles with a projected rotational velocity of ∼60–75 km s−1 and a gas temperature of ∼3500 K at the innermost annulus can reproduce the CO overtone band emission. Na i and Ca i emission lines also arise from this disk, but they show complicated line features possibly affected by photospheric absorption lines. Multi-epoch observations show asymmetric variations of the line profiles on one-year (CO overtone bandhead and atomic lines for IRAS 03445+3242) or on one-day (atomic lines for IRAS 04239+2436) timescales, implying non-axisymmetric features in disks. The narrow CO rovibrational absorption spectra (v = 0 → 2) indicate that both warm (>150 K) and cold (∼20–30 K) CO gas are present along the line of sight to the inner disk. This study demonstrates the power of IGRINS as a tool for studies of the sub-AU-scale hot and AU-scale warm protoplanetary disks with its simultaneous coverage of the full H and K bands with high spectral resolution (R = 45,000) allowing many aspects of the sources to be investigated at once.

[1]  M. Morris,et al.  HETEROGENEITY IN 12CO/13CO ABUNDANCE RATIOS TOWARD SOLAR-TYPE YOUNG STELLAR OBJECTS , 2015, 1509.06607.

[2]  T. Greene,et al.  NEAR-IR SPECTROSCOPIC MONITORING OF CLASS I PROTOSTARS: VARIABILITY OF ACCRETION AND WIND INDICATORS , 2014, 1412.2191.

[3]  C. Dominik,et al.  The structure of disks around Herbig Ae/Be stars as traced by CO ro-vibrational emission , 2014, 1412.1311.

[4]  S. Kraus,et al.  Investigating the inner discs of Herbig Ae/Be stars with CO bandhead and Brγ emission , 2014, 1409.4897.

[5]  N. Evans,et al.  HERSCHEL KEY PROGRAM, “DUST, ICE, AND GAS IN TIME” (DIGIT): THE ORIGIN OF MOLECULAR AND ATOMIC EMISSION IN LOW-MASS PROTOSTARS IN TAURUS , 2014, 1407.3033.

[6]  Jeong-Yeol Han,et al.  Design and early performance of IGRINS (Immersion Grating Infrared Spectrometer) , 2014, Astronomical Telescopes and Instrumentation.

[7]  L. Hillenbrand,et al.  Constraining the sub-au-scale distribution of hydrogen and carbon monoxide gas around young stars with the Keck Interferometer , 2014, 1406.6402.

[8]  J. Pineda,et al.  A spider-like outflow in Barnard 5 - IRS 1: the transition from a collimated jet to a wide-angle outflow? , 2014, 1404.6147.

[9]  U. S. Andrews,et al.  Radiation thermo-chemical models of protoplanetary discs - IV. Modelling CO ro-vibrational emission from Herbig Ae discs , 2012, 1210.7654.

[10]  D. Balsara,et al.  THE GAS/DUST RATIO OF CIRCUMSTELLAR DISKS: TESTING MODELS OF PLANETESIMAL FORMATION , 2012 .

[11]  D. Neufeld COLLISIONAL EXCITATION OF FAR-INFRARED LINE EMISSIONS FROM WARM INTERSTELLAR CARBON MONOXIDE (CO) , 2012, 1202.2850.

[12]  G. Herczeg,et al.  Disks and outflows in CO rovibrational emission from embedded, low-mass young stellar objects , 2011, 1106.5391.

[13]  T. Ray,et al.  VLT integral field spectroscopy of embedded protostars: using near-infrared emission lines as tracers of accretion and outflow , 2011 .

[14]  T. Greene,et al.  A NEAR-INFRARED SPECTROSCOPIC SURVEY OF CLASS I PROTOSTARS , 2010, 1009.0547.

[15]  Di Li,et al.  THE RELATION BETWEEN GAS AND DUST IN THE TAURUS MOLECULAR CLOUD , 2010, 1007.5060.

[16]  In-Soo Yuk,et al.  Preliminary design of IGRINS (Immersion GRating INfrared Spectrograph) , 2010, Astronomical Telescopes + Instrumentation.

[17]  W. D. Vacca,et al.  THE INFRARED TELESCOPE FACILITY (IRTF) SPECTRAL LIBRARY: COOL STARS , 2009, 0909.0818.

[18]  Mark R. Morris,et al.  HIGH-PRECISION C17O, C18O, AND C16O MEASUREMENTS IN YOUNG STELLAR OBJECTS: ANALOGUES FOR CO SELF-SHIELDING IN THE EARLY SOLAR SYSTEM , 2009, 0906.1024.

[19]  James R. Graham,et al.  HIGH-RESOLUTION K-BAND SPECTROSCOPY OF MWC 480 AND V1331 Cyg , 2008, 0809.4267.

[20]  P. Caselli,et al.  The N 2 D + /N 2 H + ratio as an evolutionary tracer of Class 0 protostars. ⋆ , 2008, 0809.3759.

[21]  E. Tatulli,et al.  Spatially resolving the hot CO around the young Be star 51 Ophiuchi , 2008, 0806.4937.

[22]  Greg W. Doppmann,et al.  Stellar and Circumstellar Properties of the Pre-Main-Sequence Binary GV Tau from Infrared Spectroscopy , 2008, 0805.2426.

[23]  Michael Connelley,et al.  THE EVOLUTION OF THE MULTIPLICITY OF EMBEDDED PROTOSTARS. I. SAMPLE PROPERTIES AND BINARY DETECTIONS , 2008, 0803.1656.

[24]  D. Padgett,et al.  The c2d Spitzer Spectroscopic Survey of Ices around Low-Mass Young Stellar Objects. I. H2O and the 5-8 μm Bands , 2007, 0711.4616.

[25]  S. Antoniucci,et al.  Accretion and ejection properties of embedded protostars: the case of HH26, HH34, and HH46 IRS , 2007, 0710.5609.

[26]  T. Roellig,et al.  The Relationship between the Optical Depth of the 9.7 μm Silicate Absorption Feature and Infrared Differential Extinction in Dense Clouds , 2007, 0707.3480.

[27]  D. Whelan,et al.  Near-IR CO Overtone Emission in 51 Ophiuchi , 2007 .

[28]  D. Balsara,et al.  Dust Stratification in Young Circumstellar Disks , 2006, astro-ph/0603035.

[29]  K. Covey,et al.  The Physical Natures of Class I and Flat-Spectrum Protostellar Photospheres: A Near-Infrared Spectroscopic Study , 2005, astro-ph/0505295.

[30]  E. Observatory,et al.  Evidence for a hot dust-free inner disk around 51 Oph , 2004, astro-ph/0412514.

[31]  T. Ray,et al.  Near-IR echelle spectroscopy of Class I protostars: Mapping Forbidden Emission-Line (FEL) regions in [FeII] , 2003 .

[32]  T. Quinn,et al.  Formation of Giant Planets by Fragmentation of Protoplanetary Disks , 2002, Science.

[33]  J. Monnier,et al.  On the Interferometric Sizes of Young Stellar Objects , 2002, astro-ph/0207292.

[34]  G. Fuller,et al.  The Evolution of the Circumstellar Environment of Embedded Young Stars from Observations of Rare Species of Carbon Monoxide , 2002 .

[35]  P. Bodenheimer,et al.  Implications of Extrasolar Planets for Understanding Planet Formation , 2002 .

[36]  S. Ida,et al.  The Effect of Tidal Interaction with a Gas Disk on Formation of Terrestrial Planets , 2002 .

[37]  C. Dominik,et al.  Passive Irradiated Circumstellar Disks with an Inner Hole , 2001, astro-ph/0106470.

[38]  A. Goodman,et al.  The Episodic, Precessing Giant Molecular Outflow from IRAS 04239+2436 (HH 300) , 2001, astro-ph/0103482.

[39]  J. Bally,et al.  HUBBL E SPACE T EL ESCOPE NICMOS IMAGES OF HERBIG-HARO ENERGY SOURCES: [Fe II] JETS, BINARITY, AND ENVELOPE CAVITIES , 2000 .

[40]  Alan P. Boss,et al.  Giant Planet Formation by Gravitational Instability , 1997 .

[41]  P. Cassen,et al.  Disk Accretion and the Stellar Birthline , 1997 .

[42]  C. Lada,et al.  Near-Infrared Spectra and the Evolutionary Status of Young Stellar Objects: Results of a 1.1-2.4 (??) Survey , 1996 .

[43]  J. Najita,et al.  Kinematic Diagnostics of Disks around Young Stars: CO Overtone Emission from WL 16 and 1548C27 , 1995, astro-ph/9512109.

[44]  J. Emerson,et al.  Continued decline in the 1 - 5 μm brightness of B5 IRS1: 1990-93. , 1994 .

[45]  William Herbst,et al.  Catalogue of UBVRI photometry of T Tauri stars and analysis of the causes of their variability , 1994 .

[46]  Alan T. Tokunaga,et al.  The Inner-Disk and Stellar Properties of the Young Stellar Object WL 16 , 1993 .

[47]  L. Hartmann,et al.  Mass loss from pre-main-sequence accretion disks. I - The accelerating wind of FU Orionis , 1993 .

[48]  J. Emerson,et al.  Sensitive imaging polarimetry of the faint infrared reflection nebula in B5 IRS1 , 1992 .

[49]  J. Carr Near-infrared CO emission in young stellar objects , 1989 .

[50]  J. Black,et al.  The photodissociation and chemistry of interstellar CO , 1988 .

[51]  K. Horne,et al.  AN OPTIMAL EXTRACTION ALGORITHM FOR CCD SPECTROSCOPY. , 1986 .

[52]  G. Rieke,et al.  The interstellar extinction law from 1 to 13 microns. , 1985 .

[53]  P. Roche,et al.  An investigation of the interstellar extinction. I: Towards dusty WC Wolf-Rayet stars , 1984 .

[54]  J. Smak On the emission lines from rotating gaseous disks. , 1981 .