The GLASS data products, including the GLASS redshift catalogs, for the four clusters MACS1423, MACS2129, RXJ1347, and RXJ2248 are now available on the GLASS MAST webpage: https://archive.stsci.edu/prepds/glass/
Similar to the redshift catalog released for MACS0717 presented in the GLASS survey paper Treu et al. (2015), the cluster over-density is clearly detected in the redshift distributions for these four clusters (See above figure).
If you find any of these GLASS products useful, please cite:
Today we released the GLASS survey paper together with the first data product of the survey.
The paper gives a thorough overview of GLASS and its science goals.
We utilize the Hubble Frontier Field cluster MACSJ0717, the first cluster to be observed by GLASS, to illustrate the data quality and the high-level data products we will be releasing for each of the 10 GLASS clusters.
From a visual inspection with GiG and GiGzÂ of each spectrum brighter than H_AB = 23 we measure the redshift when sufficient information is present in the spectra.
Furthermore, we conduct a thorough search for emission lines through all the GLASS WFC3 spectra with the aim of measuring redshifts for sources with continuum fainter than H_AB = 23.
As a product of these efforts, we present a catalog of 139 emission-line based spectroscopic redshifts for extragalactic sources, including three new redshifts of multiple imaged systems.
The GLASS survey paper: http://adsabs.harvard.edu/abs/2015arXiv150900475T
The GLASS data products: https://archive.stsci.edu/prepds/glass/
The GLASS inspection software: https://github.com/kasperschmidt/GLASSinspectionGUIs
The broad spectral coverage and high angular resolution of GLASS are idealÂ for detailed studies of galaxies at intermediate redshifts. In Jones et al. 2015Â our teamÂ analyzed the spatially resolved stellar mass and gas-phase metallicity inÂ a system of three strongly lensed galaxies at redshift z=1.855, drawn fromÂ the first complete GLASS data set (MACS0717).
These initial GLASS data reveal strong, spatially extended emission linesÂ in all three galaxies. We find no significant radial variation inÂ metallicity, possibly as a result of gravitational interaction among the galaxies.
These results represent the first constraint of metallicity gradientÂ evolution using HST. Our analysis also extends previous studies of theÂ mass-metallicity relation to an order of magnitude lower stellar mass,Â confirming that GLASS is able to characterize dwarf galaxies atÂ intermediate redshift. The mass-metallicity relation and metallicityÂ gradient evolution are both valuable diagnostics of how gas cycles in andÂ out of galaxies over cosmic time.
For more details go toÂ http://adsabs.harvard.edu/abs/2014arXiv1410.0967J
In GLASS data taken of the MACSJ1149.6+2223 cluster (z=0.54)Â in November, we discovered the first strongly lensed supernova visible in multiple images.Â The supernova occurred in the spiral arm of a galaxy at redshift z=1.49 lensed by a foreground early-type cluster galaxy, whose gravitational potential forms four separate, strongly magnified images of the supernova.Â With the Frontier Fields SN team, we describe the exciting system in Kelly et al. 2014.
Our team is measuring the time delays and relative magnifications between the separate images of the evolving supernova, by comparing the phase and brightness of the multiple light curves. These delays and magnifications will place tight constraints on the cosmic expansion rate, as well as theÂ distribution of luminous and dark matter in the galaxy lens and the cluster.
The MACSJ1149.6+2223 galaxy cluster furthermore lenses the spiral host galaxy of the supernova itself into multiple images, and models of the cluster predict that the supernova will appear in the future at additional locations in the cluster field.
As of April 15 2014 the GLASS observations of the clusterÂ MACS1423.8+2404 have been completed, i.e., 14 orbits split between imaging in F105W and F140W and grism spectroscopy in G102 and G141 as well as 14 orbits of imaging inÂ F814W and grism spectroscopy in G800L.
Hence, the observations of 2 out of the 10 GLASS clusters are completeâ€¦ and counting.
As of 2014 February 19 the GLASS observation ofÂ MACS0717 are complete. Hence, the full GLASS data set on the first of the 10 targeted clusters is available and ready for exploration.
The dataset includesÂ 4 orbits of HST WFC3 G141 grism spectroscopy, 10 orbits of HST WFC3Â G102 grism spectroscopy, andÂ 2×7 orbits of HST ACS G800L grism spectroscopy. The WFC3 data areÂ all on the core of the cluster taken at two different position angles to minimize the effect of contamination. The ACS spectroscopy are on theÂ two parallel fields.