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GLASS: The Grism Lens-Amplified Survey From Space. HST Grism Spectroscopy of the Frontier Fields

Published online by Cambridge University Press:  27 October 2016

Kasper B. Schmidt  and
The GLASS Team
Kasper B. Schmidt
Affiliation:
Department of Physics, University of California, Santa Barbara, CA, 93106-9530, USA
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Abstract

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The Grism Lens-Amplified Survey From Space (GLASS) is a 140 orbit spectroscopic survey of 10 massive galaxy clusters, including the six Hubble Frontier Fields. GLASS has observed the cluster cores with the HST-WFC3 G102 and G141 grisms providing a wide wavelength coverage in the near-infrared from roughly 0.8–1.7μm. The parallel fields were observed through the optical ACS G800L grism. Taking advantage of the lensing magnification of the clusters, GLASS reaches intrinsic spectroscopic 1σ flux limits of roughly 10-18erg/s/cm2 and improved spatial resolution for lensed sources behind the clusters. These features are particularly useful for the three main science drivers of GLASS which are, I) exploring the universe at the epoch of reionization, II) describe how metals cycle in and out of galaxies, and III) asses the environmental dependence of galaxy evolution. The former two benefit highly from the improved depth and increased resolution provided by the cluster lensing. Apart from the main science drivers, a slew of ancillary science has been enabled by the survey, including improving cluster lens modeling and searches for supernovae. Here we present the survey and the GLASS data releases, which are continuously being made available to the community through https://archive.stsci.edu/prepds/glass/. For further information we refer to Schmidt et al. (2014), Treu et al. (2015), and http://glass.physics.ucsb.edu.

Keywords

surveysinfrared: galaxiestechniques: spectroscopicgalaxies: clusters: generalgalaxies: evolutiongalaxies: high-redshiftgalaxies: structureline: identification
Type
Contributed Papers
Information
Proceedings of the International Astronomical Union , Volume 11 , General Assembly A29B: Astronomy in Focus , August 2015 , pp. 768 - 771
Copyright
Copyright © International Astronomical Union 2016 

References

Erb, et al., 2010, ApJ, 719, 1168 Google Scholar
Hayes, et al., 2013, ApJ, 765, L27 Google Scholar
Hayes, et al., 2014, ApJ, 782, 6 Google Scholar
Huang, et al., 2015, ApJ submitted, arXiv:astro-ph:1504:02099Google Scholar
Jones, et al., 2015, AJ, 149, 107 Google Scholar
Kelly, et al., 2015, Science, 347, 6226 Google Scholar
Östllin, et al., 2014, ApJ, 797, 11 Google Scholar
Postman, et al., 2012, ApJS, 199, 25 Google Scholar
Schmidt, et al., 2014, ApJ, 782, L36 Google Scholar
Schmidt, et al., 2015, ApJ submittedGoogle Scholar
Shapley, et al., 2003, ApJ, 588, 65 CrossRefGoogle Scholar
Stark, et al., 2014, MNRAS, 445, 3200 Google Scholar
Stark, et al., 2015a, MNRAS, 450, 1846 Google Scholar
Stark, et al., 2015b, MNRAS submitted arXiv:astro-ph:1504:06881Google Scholar
Treu, et al., 2015, ApJ in press, arXiv:astro-ph:1509.00475Google Scholar
Vulcani, et al., 2015, ApJ submittedGoogle Scholar
Wang, et al., 2015, ApJ, 811, 29 Google Scholar