Galaxy counterparts of intervening high-z sub-DLAs/DLAs and MgII absorbers towards gamma-ray bursts

S. Schulze, J. Fynbo, B. Milvang-Jensen, A. Rossi, P. Jakobsson, C. Ledoux, A. De Cia, T. Kruehler, A. Mehner, G. Bjoernsson, H. Chen, P. Vreeswijk, D. Perley, J. Hjorth, A. Levan, N. Tanvir, S. Ellison, P. Moller, G. Worseck, R. Chapman, A. Dall'Aglio, и G. Letawe.
(2012)cite arxiv:1207.6088Comment: A&A, accepted; 20 pages in journal format; 12 pages main text, 1 page references, 1 page appendix, 14 figures, 8 tables. Note, Tables 1 and 4 look different than in the journal but are identical.

Аннотация

We present the first search for galaxy counterparts of intervening high-z (2<z< 3.6) sub-DLAs and DLAs towards GRBs. Our final sample comprises of five intervening sub-DLAs and DLAs in four GRB fields. To identify candidate galaxy counterparts of the absorbers we use deep optical and near-infrared imaging, and low-, mid- and high-resolution spectroscopy acquired with 6 to 10-m class telescopes, the Hubble and the Spitzer space telescopes. Furthermore, we use the spectroscopic information and spectral-energy-distribution fitting techniques to study them in detail. Our main result is the detection and spectroscopic confirmation of the galaxy counterpart of the intervening DLA at z=3.096 in the field of GRB 070721B (z_GRB=3.6298) as proposed by other authors. We also identify good candidates for the galaxy counterparts of the two strong MgII absorbers at z=0.6915 and 1.4288 towards GRB 050820A (z_GRB=2.615). The properties of the detected DLA galaxy are typical for Lyman-break galaxies (LBGs) at similar redshifts; a young, highly starforming galaxy that shows evidence for a galactic outflow. This supports the hypothesis that a DLA can be the gaseous halo of an LBG. In addition, we report a redshift coincidence of different objects associated with metal lines in the same field, separated by 130-161 kpc. The high detection rate of three correlated structures on a length scale as small as ~150 kpc in two pairs of lines of sight is intriguing. The absorbers in each of these are most likely not part of the same gravitationally bound structure. They more likely represent groups of galaxies.

ключ BibTeX: schulze2012galaxy
тип записи: misc
год: 2012
url: http://arxiv.org/abs/1207.6088
Примечание: cite arxiv:1207.6088Comment: A&A, accepted; 20 pages in journal format; 12 pages main text, 1 page references, 1 page appendix, 14 figures, 8 tables. Note, Tables 1 and 4 look different than in the journal but are identical

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%0 Generic %1 schulze2012galaxy %A Schulze, S. %A Fynbo, J. P. U. %A Milvang-Jensen, B. %A Rossi, A. %A Jakobsson, P. %A Ledoux, C. %A De Cia, A. %A Kruehler, T. %A Mehner, A. %A Bjoernsson, G. %A Chen, H. W. %A Vreeswijk, P. M. %A Perley, D. A. %A Hjorth, J. %A Levan, A. J. %A Tanvir, N. R. %A Ellison, S. %A Moller, P. %A Worseck, G. %A Chapman, R. %A Dall'Aglio, A. %A Letawe, G. %D 2012 %K dla grb host %T Galaxy counterparts of intervening high-z sub-DLAs/DLAs and MgII absorbers towards gamma-ray bursts %U http://arxiv.org/abs/1207.6088 %X We present the first search for galaxy counterparts of intervening high-z (2<z< 3.6) sub-DLAs and DLAs towards GRBs. Our final sample comprises of five intervening sub-DLAs and DLAs in four GRB fields. To identify candidate galaxy counterparts of the absorbers we use deep optical and near-infrared imaging, and low-, mid- and high-resolution spectroscopy acquired with 6 to 10-m class telescopes, the Hubble and the Spitzer space telescopes. Furthermore, we use the spectroscopic information and spectral-energy-distribution fitting techniques to study them in detail. Our main result is the detection and spectroscopic confirmation of the galaxy counterpart of the intervening DLA at z=3.096 in the field of GRB 070721B (z_GRB=3.6298) as proposed by other authors. We also identify good candidates for the galaxy counterparts of the two strong MgII absorbers at z=0.6915 and 1.4288 towards GRB 050820A (z_GRB=2.615). The properties of the detected DLA galaxy are typical for Lyman-break galaxies (LBGs) at similar redshifts; a young, highly starforming galaxy that shows evidence for a galactic outflow. This supports the hypothesis that a DLA can be the gaseous halo of an LBG. In addition, we report a redshift coincidence of different objects associated with metal lines in the same field, separated by 130-161 kpc. The high detection rate of three correlated structures on a length scale as small as ~150 kpc in two pairs of lines of sight is intriguing. The absorbers in each of these are most likely not part of the same gravitationally bound structure. They more likely represent groups of galaxies.

@misc{schulze2012galaxy, abstract = {We present the first search for galaxy counterparts of intervening high-z (2<z< 3.6) sub-DLAs and DLAs towards GRBs. Our final sample comprises of five intervening sub-DLAs and DLAs in four GRB fields. To identify candidate galaxy counterparts of the absorbers we use deep optical and near-infrared imaging, and low-, mid- and high-resolution spectroscopy acquired with 6 to 10-m class telescopes, the Hubble and the Spitzer space telescopes. Furthermore, we use the spectroscopic information and spectral-energy-distribution fitting techniques to study them in detail. Our main result is the detection and spectroscopic confirmation of the galaxy counterpart of the intervening DLA at z=3.096 in the field of GRB 070721B (z_GRB=3.6298) as proposed by other authors. We also identify good candidates for the galaxy counterparts of the two strong MgII absorbers at z=0.6915 and 1.4288 towards GRB 050820A (z_GRB=2.615). The properties of the detected DLA galaxy are typical for Lyman-break galaxies (LBGs) at similar redshifts; a young, highly starforming galaxy that shows evidence for a galactic outflow. This supports the hypothesis that a DLA can be the gaseous halo of an LBG. In addition, we report a redshift coincidence of different objects associated with metal lines in the same field, separated by 130-161 kpc. The high detection rate of three correlated structures on a length scale as small as ~150 kpc in two pairs of lines of sight is intriguing. The absorbers in each of these are most likely not part of the same gravitationally bound structure. They more likely represent groups of galaxies.}, added-at = {2012-07-26T15:02:21.000+0200}, author = {Schulze, S. and Fynbo, J. P. U. and Milvang-Jensen, B. and Rossi, A. and Jakobsson, P. and Ledoux, C. and De Cia, A. and Kruehler, T. and Mehner, A. and Bjoernsson, G. and Chen, H. W. and Vreeswijk, P. M. and Perley, D. A. and Hjorth, J. and Levan, A. J. and Tanvir, N. R. and Ellison, S. and Moller, P. and Worseck, G. and Chapman, R. and Dall'Aglio, A. and Letawe, G.}, biburl = {https://www.bibsonomy.org/bibtex/24210694c7194807b705dcd0e8f5dd087/miki}, description = {[1207.6088] Galaxy counterparts of intervening high-z sub-DLAs/DLAs and MgII absorbers towards gamma-ray bursts}, interhash = {54593c750132ea27cabc6f62ae12e55f}, intrahash = {4210694c7194807b705dcd0e8f5dd087}, keywords = {dla grb host}, note = {cite arxiv:1207.6088Comment: A&A, accepted; 20 pages in journal format; 12 pages main text, 1 page references, 1 page appendix, 14 figures, 8 tables. Note, Tables 1 and 4 look different than in the journal but are identical}, timestamp = {2012-07-26T15:02:21.000+0200}, title = {Galaxy counterparts of intervening high-z sub-DLAs/DLAs and MgII absorbers towards gamma-ray bursts}, url = {http://arxiv.org/abs/1207.6088}, year = 2012 }

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