RADIO CONTINUUM OBSERVATIONS OF THE GALACTIC CENTER: PHOTOEVAPORATIVE PROPLYD-LIKE OBJECTS NEAR SGR A*

We present radio images within 30″ of Sgr A* based on recent VLA observations at 34 GHz with 7.8 μJy sensitivity and resolution of mas. We report 44 partially resolved compact sources clustered in two regions in the E arm of ionized gas that orbits Sgr A*. These sources have size scales ranging between ∼50 and 200 mas (400–1600 AUs), and a bow- shock appearance facing the direction of Sgr A*. Unlike the bow-shock sources previously identified in the near-IR but associated with massive stars, these 34 GHz sources do not appear to have near-IR counterparts at 3.8 μm. We interpret these sources as a candidate population of photoevaporative protoplanetary disks (proplyds) that are associated with newly formed low mass stars with mass loss rates yr−1 and are located at the edge of a molecular cloud outlined by ionized gas. The disks are externally illuminated by strong Lyman continuum radiation from the ∼100 OB and WR massive stars distributed within 10″ of Sgr A*. The presence of proplyds implies current in situ star formation activity near Sgr A* and opens a window for the first time to study low mass star, planetary, and brown dwarf formations near a supermassive black hole.

[1]  T. Geballe,et al.  Hubble Space Telescope and United Kingdom Infrared Telescope Observations of the Center of the Trifid Nebula: Evidence for the Photoevaporation of a Proplyd and a Protostellar Condensation , 2005, astro-ph/0505155.

[2]  T. Paumard,et al.  AN EXTREMELY TOP-HEAVY INITIAL MASS FUNCTION IN THE GALACTIC CENTER STELLAR DISKS , 2009, 0908.2177.

[3]  R. Rebolo,et al.  Holographic imaging of crowded fields: high angular resolution imaging with excellent quality at very low cost , 2011, 1110.2261.

[4]  B. Whitney,et al.  ALMA OBSERVATIONS OF THE GALACTIC CENTER: SiO OUTFLOWS AND HIGH-MASS STAR FORMATION NEAR Sgr A* , 2013, 1303.3403.

[5]  F. Yusef-Zadeh Imprints of Molecular Clouds in Radio Continuum Images , 2012, 1210.1526.

[6]  Jessica R. Lu,et al.  A DISK OF YOUNG STARS AT THE GALACTIC CENTER AS DETERMINED BY INDIVIDUAL STELLAR ORBITS , 2008, 0808.3818.

[7]  E. Serabyn,et al.  A gaseous tail ablated from the supergiant IRS 7 near the galactic center , 1991 .

[8]  A. Eckart,et al.  IRS 13N: a new comoving group of sources at the Galactic center , 2008, 0802.4004.

[9]  W. Cotton,et al.  THE DISCOVERY OF RADIO STARS WITHIN 10″ OF Sgr A*  AT 7 mm , 2014, 1407.4135.

[10]  Reinhard Genzel,et al.  The galactic center massive black hole and nuclear star cluster , 2010, 1006.0064.

[11]  Z. Wen,et al.  Postrefurbishment mission Hubble Space Telescope images of the core of the Orion Nebula: Proplyds, Herbig-Haro objects, and measurements of a circumstellar disk , 1994 .

[12]  J. Bally,et al.  Numerous Proplyd Candidates in the Harsh Environment of the Carina Nebula , 2003 .

[13]  A. Gibb,et al.  A Survey of SiO 5 → 4 Emission toward Outflows from Low-Luminosity Protostellar Candidates , 2003, astro-ph/0311456.

[14]  R. Genzel,et al.  MONITORING STELLAR ORBITS AROUND THE MASSIVE BLACK HOLE IN THE GALACTIC CENTER , 2008, 0810.4674.

[15]  Jessica R. Lu,et al.  Measuring Distance and Properties of the Milky Way’s Central Supermassive Black Hole with Stellar Orbits , 2008, 0808.2870.

[16]  A. M. Ghez,et al.  Stellar Bow Shocks in the Northern Arm of the Galactic Center: More Members and Kinematics of the Massive Star Population , 2004, astro-ph/0412494.

[17]  M. Felli,et al.  Solar system-sized condensations in the Orion Nebula , 1987 .

[18]  Jessica R. Lu,et al.  STELLAR POPULATIONS IN THE CENTRAL 0.5 pc OF THE GALAXY. II. THE INITIAL MASS FUNCTION , 2013, 1301.0540.

[19]  J. Bally,et al.  Photoevaporation of Disks and Clumps by Nearby Massive Stars: Application to Disk Destruction in the Orion Nebula , 1998 .

[20]  M. Robberto,et al.  VLTI observations of IRS 3: the brightest compact MIR source at the galactic centre , 2005 .

[21]  K. Mužić,et al.  Near-infrared proper motions and spectroscopy of infrared excess sources at the Galactic center , 2012, 1208.1907.

[22]  Reinhard Genzel,et al.  The nucleus of our Galaxy , 1994 .

[23]  D. Hollenbach,et al.  Photodissociation Region Models of Photoevaporating Circumstellar Disks and Application to the Proplyds in Orion , 1999 .

[24]  M. F. Radioastronomie,et al.  The Proper Motion of Sagittarius A*. II. The Mass of Sagittarius A* , 2004, astro-ph/0408107.

[25]  N. Gehrels,et al.  SWIFT DISCOVERY OF A NEW SOFT GAMMA REPEATER, SGR J1745−29, NEAR SAGITTARIUS A* , 2013, 1305.2128.

[26]  T. Paumard,et al.  The Two Young Star Disks in the Central Parsec of the Galaxy: Properties, Dynamics, and Formation , 2006, astro-ph/0601268.

[27]  K. Mužić,et al.  Peering through the veil: near-infrared photometry and extinction for the Galactic nuclear star cluster , 2009, 0912.1273.

[28]  Compact continuum radio sources in the Orion Nebula , 1987 .

[29]  A. Eckart,et al.  Dusty sources at the galactic center: the n- and q-band view with visir , 2006, astro-ph/0601435.

[30]  J.-U. Pott,et al.  Properties of bow-shock sources at the Galactic center , 2014, 1405.4528.

[31]  First results from SPIFFI. I: The Galactic Center , 2004 .

[32]  Edward J. Shaya,et al.  Hubble Space Telescope WFPC2 Imaging of M16: Photoevaporation and Emerging Young Stellar Objects , 1996 .

[33]  Jonathan P. Williams,et al.  ALMA OBSERVATIONS OF THE ORION PROPLYDS , 2014, 1403.2026.