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SPT 0538−50: PHYSICAL CONDITIONS IN THE INTERSTELLAR MEDIUM OF A STRONGLY LENSED DUSTY STAR-FORMING GALAXY AT z = 2.8
- Bothwell, MS;
- Aguirre, JE;
- Chapman, SC;
- Marrone, DP;
- Vieira, JD;
- Ashby, MLN;
- Aravena, M;
- Benson, BA;
- Bock, JJ;
- Bradford, CM;
- Brodwin, M;
- Carlstrom, JE;
- Crawford, TM;
- de Breuck, C;
- Downes, TP;
- Fassnacht, CD;
- Gonzalez, AH;
- Greve, TR;
- Gullberg, B;
- Hezaveh, Y;
- Holder, GP;
- Holzapfel, WL;
- Ibar, E;
- Ivison, R;
- Kamenetzky, J;
- Keisler, R;
- Lupu, RE;
- Ma, J;
- Malkan, M;
- McIntyre, V;
- Murphy, EJ;
- Nguyen, HT;
- Reichardt, CL;
- Rosenman, M;
- Spilker, JS;
- Stalder, B;
- Stark, AA;
- Strandet, M;
- Vernet, J;
- Weiß, A;
- Welikala, N
- et al.
Published Web Location
https://doi.org/10.1088/0004-637x/779/1/67Abstract
We present observations of SPT-S J053816-5030.8, a gravitationally lensed dusty star-forming galaxy (DSFG) at z = 2.7817 that was first discovered at millimeter wavelengths by the South Pole Telescope. SPT 0538-50 is typical of the brightest sources found by wide-field millimeter-wavelength surveys, being lensed by an intervening galaxy at moderate redshift (in this instance, at z = 0.441). We present a wide array of multi-wavelength spectroscopic and photometric data on SPT 0538-50, including data from ALMA, Herschel PACS and SPIRE, Hubble, Spitzer, the Very Large Telescope, ATCA, APEX, and the Submillimeter Array. We use high-resolution imaging from the Hubble Space Telescope to de-blend SPT 0538-50, separating DSFG emission from that of the foreground lens. Combined with a source model derived from ALMA imaging (which suggests a magnification factor of 21 ± 4), we derive the intrinsic properties of SPT 0538-50, including the stellar mass, far-IR luminosity, star formation rate, molecular gas mass, and - using molecular line fluxes - the excitation conditions within the interstellar medium. The derived physical properties argue that we are witnessing compact, merger-driven star formation in SPT 0538-50 similar to local starburst galaxies and unlike that seen in some other DSFGs at this epoch. © 2013. The American Astronomical Society. All rights reserved..
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