Your search keyword '"KOESTER, BENJAMIN P."' showing total 54 results

1. Strong Lens Models for 37 Clusters of Galaxies from the SDSS Giant Arcs Survey

Author

Sharon, Keren, Bayliss, Matthew B., Dahle, Hakon, Dunham, Samuel J., Florian, Michael K., Gladders, Michael D., Johnson, Traci L., Mahler, Guillaume, Paterno-Mahler, Rachel, Rigby, Jane R., Whitaker, Katherine E., Akhshik, Mohammad, Koester, Benjamin P., Murray, Katherine, Gonzalez, Juan David Remolina, Wuyts, Eva, Sharon, Keren, Bayliss, Matthew B., Dahle, Hakon, Dunham, Samuel J., Florian, Michael K., Gladders, Michael D., Johnson, Traci L., Mahler, Guillaume, Paterno-Mahler, Rachel, Rigby, Jane R., Whitaker, Katherine E., Akhshik, Mohammad, Koester, Benjamin P., Murray, Katherine, Gonzalez, Juan David Remolina, and Wuyts, Eva

Published

2020

2. Strong Lens Models for 37 Clusters of Galaxies from the SDSS Giant Arcs Survey

Author

Sharon, Keren, Bayliss, Matthew B., Dahle, Hakon, Dunham, Samuel J., Florian, Michael K., Gladders, Michael D., Johnson, Traci L., Mahler, Guillaume, Paterno-Mahler, Rachel, Rigby, Jane R., Whitaker, Katherine E., Akhshik, Mohammad, Koester, Benjamin P., Murray, Katherine, Gonzalez, Juan David Remolina, Wuyts, Eva, Sharon, Keren, Bayliss, Matthew B., Dahle, Hakon, Dunham, Samuel J., Florian, Michael K., Gladders, Michael D., Johnson, Traci L., Mahler, Guillaume, Paterno-Mahler, Rachel, Rigby, Jane R., Whitaker, Katherine E., Akhshik, Mohammad, Koester, Benjamin P., Murray, Katherine, Gonzalez, Juan David Remolina, and Wuyts, Eva

Published

2020

3. Strong Lens Models for 37 Clusters of Galaxies from the SDSS Giant Arcs Survey

Author

Sharon, Keren, Bayliss, Matthew B., Dahle, Håkon, Dunham, Samuel J., Florian, Michael K., Gladders, Michael D., Johnson, Traci L., Mahler, Guillaume, Paterno-Mahler, Rachel, Rigby, Jane R., Whitaker, Katherine E., Akhshik, Mohammad, Koester, Benjamin P., Murray, Katherine, Remolina González, Juan David, Wuyts, Eva, Sharon, Keren, Bayliss, Matthew B., Dahle, Håkon, Dunham, Samuel J., Florian, Michael K., Gladders, Michael D., Johnson, Traci L., Mahler, Guillaume, Paterno-Mahler, Rachel, Rigby, Jane R., Whitaker, Katherine E., Akhshik, Mohammad, Koester, Benjamin P., Murray, Katherine, Remolina González, Juan David, and Wuyts, Eva

Abstract

We present strong gravitational lensing models for 37 galaxy clusters from the Sloan Digital Sky Survey Giant Arcs Survey. We combine data from multi-band Hubble Space Telescope Wide Field Camera 3 (WFC3) imaging, with ground-based imaging and spectroscopy from Magellan, Gemini, Apache Point Observatory, and the Multiple Mirror Telescope, in order to detect and spectroscopically confirm new multiply imaged lensed background sources behind the clusters. We report spectroscopic or photometric redshifts of sources in these fields, including cluster galaxies and background sources. Based on all available lensing evidence, we construct and present strong-lensing mass models for these galaxy clusters.

Published

2020

4. Strong Lens Models for 37 Clusters of Galaxies from the SDSS Giant Arcs Survey

Author

Sharon, Keren, Bayliss, Matthew B., Dahle, Håkon, Dunham, Samuel J., Florian, Michael K., Gladders, Michael D., Johnson, Traci L., Mahler, Guillaume, Paterno-Mahler, Rachel, Rigby, Jane R., Whitaker, Katherine E., Akhshik, Mohammad, Koester, Benjamin P., Murray, Katherine, Wuyts, Eva, Sharon, Keren, Bayliss, Matthew B., Dahle, Håkon, Dunham, Samuel J., Florian, Michael K., Gladders, Michael D., Johnson, Traci L., Mahler, Guillaume, Paterno-Mahler, Rachel, Rigby, Jane R., Whitaker, Katherine E., Akhshik, Mohammad, Koester, Benjamin P., Murray, Katherine, and Wuyts, Eva

Abstract

We present strong gravitational lensing models for 37 galaxy clusters from the SDSS Giant Arcs Survey. We combine data from multi-band Hubble Space Telescope WFC3imaging, with ground-based imaging and spectroscopy from Magellan, Gemini, APO, and MMT, in order to detect and spectroscopically confirm new multiply-lensed background sources behind the clusters. We report spectroscopic or photometric redshifts of sources in these fields, including cluster galaxies and background sources. Based on all available lensing evidence, we construct and present strong lensing mass models for these galaxy clusters., Comment: 53 pages; submitted to ApJS

Published

2019

5. Strong Lens Models for 37 Clusters of Galaxies from the SDSS Giant Arcs Survey

Author

Sharon, Keren, Bayliss, Matthew B., Dahle, Håkon, Dunham, Samuel J., Florian, Michael K., Gladders, Michael D., Johnson, Traci L., Mahler, Guillaume, Paterno-Mahler, Rachel, Rigby, Jane R., Whitaker, Katherine E., Akhshik, Mohammad, Koester, Benjamin P., Murray, Katherine, Wuyts, Eva, Sharon, Keren, Bayliss, Matthew B., Dahle, Håkon, Dunham, Samuel J., Florian, Michael K., Gladders, Michael D., Johnson, Traci L., Mahler, Guillaume, Paterno-Mahler, Rachel, Rigby, Jane R., Whitaker, Katherine E., Akhshik, Mohammad, Koester, Benjamin P., Murray, Katherine, and Wuyts, Eva

Abstract

We present strong gravitational lensing models for 37 galaxy clusters from the SDSS Giant Arcs Survey. We combine data from multi-band Hubble Space Telescope WFC3imaging, with ground-based imaging and spectroscopy from Magellan, Gemini, APO, and MMT, in order to detect and spectroscopically confirm new multiply-lensed background sources behind the clusters. We report spectroscopic or photometric redshifts of sources in these fields, including cluster galaxies and background sources. Based on all available lensing evidence, we construct and present strong lensing mass models for these galaxy clusters., Comment: 53 pages; submitted to ApJS

Published

2019

6. SGAS 143845.1+145407: A Big, Cool Starburst at Redshift 0.816

Author

Gladders, Michael D., Rigby, Jane R., Sharon, Keren, Wuyts, Eva, Abramson, Louis E., Dahle, Hakon, Persson, S. E., Monson, Andrew J., Kelson, Daniel D., Benford, Dominic J., Murphy, David, Bayliss, Matthew B., Finkelstein, Keely D., Koester, Benjamin P., Bans, Alissa, Baxter, Eric J., Helsby, Jennifer E., Gladders, Michael D., Rigby, Jane R., Sharon, Keren, Wuyts, Eva, Abramson, Louis E., Dahle, Hakon, Persson, S. E., Monson, Andrew J., Kelson, Daniel D., Benford, Dominic J., Murphy, David, Bayliss, Matthew B., Finkelstein, Keely D., Koester, Benjamin P., Bans, Alissa, Baxter, Eric J., and Helsby, Jennifer E.

Abstract

We present the discovery and a detailed multi-wavelength study of a strongly-lensed luminous infrared galaxy at z=0.816. Unlike most known lensed galaxies discovered at optical or near-infrared wavelengths this lensed source is red, r-Ks = 3.9 [AB], which the data presented here demonstrate is due to ongoing dusty star formation. The overall lensing magnification (a factor of 17) facilitates observations from the blue optical through to 500micron, fully capturing both the stellar photospheric emission as well as the re-processed thermal dust emission. We also present optical and near-IR spectroscopy. These extensive data show that this lensed galaxy is in many ways typical of IR-detected sources at z~1, with both a total luminosity and size in accordance with other (albeit much less detailed) measurements in samples of galaxies observed in deep fields with the Spitzer telescope. Its far-infrared spectral energy distribution is well-fit by local templates that are an order of magnitude less luminous than the lensed galaxy; local templates of comparable luminosity are too hot to fit. Its size (D~7kpc) is much larger than local luminous infrared galaxies, but in line with sizes observed for such galaxies at z~1. The star formation appears uniform across this spatial scale. In this source, the luminosity of which is typical of sources that dominate the cosmic infrared background, we find that star formation is spatially extended and well organised, quite unlike the compact merger-driven starbursts which are typical for sources of this luminosity at z~0., Comment: 18 pages, 10 figures

Published

2012

7. Source Plane Reconstruction of The Bright Lensed Galaxy RCSGA 032727-132609

Author

Sharon, Keren, Gladders, Michael D., Rigby, Jane R., Wuyts, Eva, Koester, Benjamin P., Bayliss, Matthew B., Barrientos, L. Felipe, Sharon, Keren, Gladders, Michael D., Rigby, Jane R., Wuyts, Eva, Koester, Benjamin P., Bayliss, Matthew B., and Barrientos, L. Felipe

Abstract

We present new HST/WFC3 imaging data of RCSGA 032727-132609, a bright lensed galaxy at z=1.7 that is magnified and stretched by the lensing cluster RCS2 032727-132623. Using this new high-resolution imaging, we modify our previous lens model (which was based on ground-based data) to fully understand the lensing geometry, and use it to reconstruct the lensed galaxy in the source plane. This giant arc represents a unique opportunity to peer into 100-pc scale structures in a high-redshift galaxy. This new source reconstruction will be crucial for a future analysis of the spatially-resolved rest-UV and rest-optical spectra of the brightest parts of the arc., Comment: 10 pages, 8 figures, ApJ, in press

Published

2012

8. SGAS 143845.1+145407: A Big, Cool Starburst at Redshift 0.816

Author

Gladders, Michael D., Rigby, Jane R., Sharon, Keren, Wuyts, Eva, Abramson, Louis E., Dahle, Hakon, Persson, S. E., Monson, Andrew J., Kelson, Daniel D., Benford, Dominic J., Murphy, David, Bayliss, Matthew B., Finkelstein, Keely D., Koester, Benjamin P., Bans, Alissa, Baxter, Eric J., Helsby, Jennifer E., Gladders, Michael D., Rigby, Jane R., Sharon, Keren, Wuyts, Eva, Abramson, Louis E., Dahle, Hakon, Persson, S. E., Monson, Andrew J., Kelson, Daniel D., Benford, Dominic J., Murphy, David, Bayliss, Matthew B., Finkelstein, Keely D., Koester, Benjamin P., Bans, Alissa, Baxter, Eric J., and Helsby, Jennifer E.

Abstract

We present the discovery and a detailed multi-wavelength study of a strongly-lensed luminous infrared galaxy at z=0.816. Unlike most known lensed galaxies discovered at optical or near-infrared wavelengths this lensed source is red, r-Ks = 3.9 [AB], which the data presented here demonstrate is due to ongoing dusty star formation. The overall lensing magnification (a factor of 17) facilitates observations from the blue optical through to 500micron, fully capturing both the stellar photospheric emission as well as the re-processed thermal dust emission. We also present optical and near-IR spectroscopy. These extensive data show that this lensed galaxy is in many ways typical of IR-detected sources at z~1, with both a total luminosity and size in accordance with other (albeit much less detailed) measurements in samples of galaxies observed in deep fields with the Spitzer telescope. Its far-infrared spectral energy distribution is well-fit by local templates that are an order of magnitude less luminous than the lensed galaxy; local templates of comparable luminosity are too hot to fit. Its size (D~7kpc) is much larger than local luminous infrared galaxies, but in line with sizes observed for such galaxies at z~1. The star formation appears uniform across this spatial scale. In this source, the luminosity of which is typical of sources that dominate the cosmic infrared background, we find that star formation is spatially extended and well organised, quite unlike the compact merger-driven starbursts which are typical for sources of this luminosity at z~0., Comment: 18 pages, 10 figures

Published

2012

9. Source Plane Reconstruction of The Bright Lensed Galaxy RCSGA 032727-132609

Author

Sharon, Keren, Gladders, Michael D., Rigby, Jane R., Wuyts, Eva, Koester, Benjamin P., Bayliss, Matthew B., Barrientos, L. Felipe, Sharon, Keren, Gladders, Michael D., Rigby, Jane R., Wuyts, Eva, Koester, Benjamin P., Bayliss, Matthew B., and Barrientos, L. Felipe

Abstract

We present new HST/WFC3 imaging data of RCSGA 032727-132609, a bright lensed galaxy at z=1.7 that is magnified and stretched by the lensing cluster RCS2 032727-132623. Using this new high-resolution imaging, we modify our previous lens model (which was based on ground-based data) to fully understand the lensing geometry, and use it to reconstruct the lensed galaxy in the source plane. This giant arc represents a unique opportunity to peer into 100-pc scale structures in a high-redshift galaxy. This new source reconstruction will be crucial for a future analysis of the spatially-resolved rest-UV and rest-optical spectra of the brightest parts of the arc., Comment: 10 pages, 8 figures, ApJ, in press

Published

2012

10. Combined strong and weak lensing analysis of 28 clusters from the Sloan Giant Arcs Survey

Author

Oguri, Masamune, Bayliss, Matthew B., Dahle, Haakon, Sharon, Keren, Gladders, Michael D., Natarajan, Priyamvada, Hennawi, Joseph F., Koester, Benjamin P., Oguri, Masamune, Bayliss, Matthew B., Dahle, Haakon, Sharon, Keren, Gladders, Michael D., Natarajan, Priyamvada, Hennawi, Joseph F., and Koester, Benjamin P.

Abstract

We study the mass distribution of a sample of 28 galaxy clusters using strong and weak lensing observations. The clusters are selected via their strong lensing properties as part of the Sloan Giant Arcs Survey (SGAS) from the Sloan Digital Sky Survey (SDSS). Mass modelling of the strong lensing information from the giant arcs is combined with weak lensing measurements from deep Subaru/Suprime-cam images to primarily obtain robust constraints on the concentration parameter and the shape of the mass distribution. We find that the concentration c_vir is a steep function of the mass, c_vir \propto M_vir^-0.59\pm0.12, with the value roughly consistent with the lensing-bias-corrected theoretical expectation for high mass (10^15 h^-1 M_sun) clusters. However, the observationally inferred concentration parameters appear to be much higher at lower masses (10^14 h^-1 M_sun), possibly a consequence of the modification to the inner density profiles provided by baryon cooling. The steep mass-concentration relation is also supported from direct stacking analysis of the tangential shear profiles. In addition, we explore the two-dimensional shape of the projected mass distribution by stacking weak lensing shear maps of individual clusters with prior information on the position angle from strong lens modelling, and find significant evidence for a large mean ellipticity with the best-fit value of e = 0.47 \pm 0.06 for the mass distribution of the stacked sample. We find that the luminous cluster member galaxy distribution traces the overall mass distribution very well, although the distribution of fainter cluster galaxies appears to be more extended than the total mass., Comment: 29 pages, 15+9 figures, 7 tables, accepted for publication in MNRAS

Published

2011

11. Cosmological Constraints from Galaxy Clustering and the Mass-to-Number Ratio of Galaxy Clusters

Author

Tinker, Jeremy L., Sheldon, Erin S., Wechsler, Risa H., Becker, Matthew R., Rozo, Eduardo, Zu, Ying, Weinberg, David H., Zehavi, Idit, Blanton, Michael, Busha, Michael, Koester, Benjamin P., Tinker, Jeremy L., Sheldon, Erin S., Wechsler, Risa H., Becker, Matthew R., Rozo, Eduardo, Zu, Ying, Weinberg, David H., Zehavi, Idit, Blanton, Michael, Busha, Michael, and Koester, Benjamin P.

Abstract

We place constraints on the average density (Omega_m) and clustering amplitude (sigma_8) of matter using a combination of two measurements from the Sloan Digital Sky Survey: the galaxy two-point correlation function, w_p, and the mass-to-galaxy-number ratio within galaxy clusters, M/N, analogous to cluster M/L ratios. Our w_p measurements are obtained from DR7 while the sample of clusters is the maxBCG sample, with cluster masses derived from weak gravitational lensing. We construct non-linear galaxy bias models using the Halo Occupation Distribution (HOD) to fit both w_p and M/N for different cosmological parameters. HOD models that match the same two-point clustering predict different numbers of galaxies in massive halos when Omega_m or sigma_8 is varied, thereby breaking the degeneracy between cosmology and bias. We demonstrate that this technique yields constraints that are consistent and competitive with current results from cluster abundance studies, even though this technique does not use abundance information. Using w_p and M/N alone, we find Omega_m^0.5*sigma_8=0.465+/-0.026, with individual constraints of Omega_m=0.29+/-0.03 and sigma_8=0.85+/-0.06. Combined with current CMB data, these constraints are Omega_m=0.290+/-0.016 and sigma_8=0.826+/-0.020. All errors are 1-sigma. The systematic uncertainties that the M/N technique are most sensitive to are the amplitude of the bias function of dark matter halos and the possibility of redshift evolution between the SDSS Main sample and the maxBCG sample. Our derived constraints are insensitive to the current level of uncertainties in the halo mass function and in the mass-richness relation of clusters and its scatter, making the M/N technique complementary to cluster abundances as a method for constraining cosmology with future galaxy surveys., Comment: 23 pages, submitted to ApJ

Published

2011

12. Combined strong and weak lensing analysis of 28 clusters from the Sloan Giant Arcs Survey

Author

Oguri, Masamune, Bayliss, Matthew B., Dahle, Haakon, Sharon, Keren, Gladders, Michael D., Natarajan, Priyamvada, Hennawi, Joseph F., Koester, Benjamin P., Oguri, Masamune, Bayliss, Matthew B., Dahle, Haakon, Sharon, Keren, Gladders, Michael D., Natarajan, Priyamvada, Hennawi, Joseph F., and Koester, Benjamin P.

Abstract

We study the mass distribution of a sample of 28 galaxy clusters using strong and weak lensing observations. The clusters are selected via their strong lensing properties as part of the Sloan Giant Arcs Survey (SGAS) from the Sloan Digital Sky Survey (SDSS). Mass modelling of the strong lensing information from the giant arcs is combined with weak lensing measurements from deep Subaru/Suprime-cam images to primarily obtain robust constraints on the concentration parameter and the shape of the mass distribution. We find that the concentration c_vir is a steep function of the mass, c_vir \propto M_vir^-0.59\pm0.12, with the value roughly consistent with the lensing-bias-corrected theoretical expectation for high mass (10^15 h^-1 M_sun) clusters. However, the observationally inferred concentration parameters appear to be much higher at lower masses (10^14 h^-1 M_sun), possibly a consequence of the modification to the inner density profiles provided by baryon cooling. The steep mass-concentration relation is also supported from direct stacking analysis of the tangential shear profiles. In addition, we explore the two-dimensional shape of the projected mass distribution by stacking weak lensing shear maps of individual clusters with prior information on the position angle from strong lens modelling, and find significant evidence for a large mean ellipticity with the best-fit value of e = 0.47 \pm 0.06 for the mass distribution of the stacked sample. We find that the luminous cluster member galaxy distribution traces the overall mass distribution very well, although the distribution of fainter cluster galaxies appears to be more extended than the total mass., Comment: 29 pages, 15+9 figures, 7 tables, accepted for publication in MNRAS

Published

2011

13. Cosmological Constraints from Galaxy Clustering and the Mass-to-Number Ratio of Galaxy Clusters

Author

Tinker, Jeremy L., Sheldon, Erin S., Wechsler, Risa H., Becker, Matthew R., Rozo, Eduardo, Zu, Ying, Weinberg, David H., Zehavi, Idit, Blanton, Michael, Busha, Michael, Koester, Benjamin P., Tinker, Jeremy L., Sheldon, Erin S., Wechsler, Risa H., Becker, Matthew R., Rozo, Eduardo, Zu, Ying, Weinberg, David H., Zehavi, Idit, Blanton, Michael, Busha, Michael, and Koester, Benjamin P.

Abstract

We place constraints on the average density (Omega_m) and clustering amplitude (sigma_8) of matter using a combination of two measurements from the Sloan Digital Sky Survey: the galaxy two-point correlation function, w_p, and the mass-to-galaxy-number ratio within galaxy clusters, M/N, analogous to cluster M/L ratios. Our w_p measurements are obtained from DR7 while the sample of clusters is the maxBCG sample, with cluster masses derived from weak gravitational lensing. We construct non-linear galaxy bias models using the Halo Occupation Distribution (HOD) to fit both w_p and M/N for different cosmological parameters. HOD models that match the same two-point clustering predict different numbers of galaxies in massive halos when Omega_m or sigma_8 is varied, thereby breaking the degeneracy between cosmology and bias. We demonstrate that this technique yields constraints that are consistent and competitive with current results from cluster abundance studies, even though this technique does not use abundance information. Using w_p and M/N alone, we find Omega_m^0.5*sigma_8=0.465+/-0.026, with individual constraints of Omega_m=0.29+/-0.03 and sigma_8=0.85+/-0.06. Combined with current CMB data, these constraints are Omega_m=0.290+/-0.016 and sigma_8=0.826+/-0.020. All errors are 1-sigma. The systematic uncertainties that the M/N technique are most sensitive to are the amplitude of the bias function of dark matter halos and the possibility of redshift evolution between the SDSS Main sample and the maxBCG sample. Our derived constraints are insensitive to the current level of uncertainties in the halo mass function and in the mass-richness relation of clusters and its scatter, making the M/N technique complementary to cluster abundances as a method for constraining cosmology with future galaxy surveys., Comment: 23 pages, submitted to ApJ

Published

2011

14. The Redshift Distribution of Giant Arcs in the Sloan Giant Arcs Survey

Author

Bayliss, Matthew B., Gladders, Michael D., Oguri, Masamune, Hennawi, Joseph F., Sharon, Keren, Koester, Benjamin P., Dahle, Hakon, Bayliss, Matthew B., Gladders, Michael D., Oguri, Masamune, Hennawi, Joseph F., Sharon, Keren, Koester, Benjamin P., and Dahle, Hakon

Abstract

We measure the redshift distribution of a sample of 28 giant arcs discovered as a part of the Sloan Giant Arcs Survey (SGAS). Gemini/GMOS-North spectroscopy provides precise redshifts for 24 arcs, and "redshift desert" constraints for the remaining four. This is a direct measurement of the redshift distribution of a uniformly selected sample of bright giant arcs, which is an observable that can be used to inform efforts to predict giant arc statistics. Our primary giant arc sample has a median redshift z=1.821 and nearly two thirds of the arcs - 64% - are sources at z \gtrsim 1.4, indicating that the population of background sources that are strongly lensed into bright giant arcs resides primarily at high redshift. We also analyze the distribution of redshifts for 19 secondary strongly lensed background sources that are not visually apparent in SDSS imaging, but were identified in deeper follow-up imaging of the lensing cluster fields. Our redshift sample for the secondary sources is not spectroscopically complete, but combining it with our primary giant arc sample suggests that a large fraction of all background galaxies which are strongly lensed by foreground clusters reside at z \gtrsim 1.4. Kolmogorov-Smirnov (KS) tests indicate that our well-selected, spectroscopically complete primary giant arc redshift sample can be reproduced with a model distribution that is constructed from a combination of results from studies of strong lensing clusters in numerical simulations, and observational constraints on the galaxy luminosity function., Comment: eapj format, 6 Pages, 2 Figures, 2 Tables. Published in ApJ Letters

Published

2010

15. A GMBCG Galaxy Cluster Catalog of 55,424 Rich Clusters from SDSS DR7

Author

Hao, Jiangang, McKay, Timothy A., Koester, Benjamin P., Rykoff, Eli S., Rozo, Eduardo, Annis, James, Wechsler, Risa H., Evrard, August, Siegel, Seth R., Becker, Matthew, Busha, Michael, Gerdes, David, Johnston, David E., Sheldon, Erin, Hao, Jiangang, McKay, Timothy A., Koester, Benjamin P., Rykoff, Eli S., Rozo, Eduardo, Annis, James, Wechsler, Risa H., Evrard, August, Siegel, Seth R., Becker, Matthew, Busha, Michael, Gerdes, David, Johnston, David E., and Sheldon, Erin

Abstract

We present a large catalog of optically selected galaxy clusters from the application of a new Gaussian Mixture Brightest Cluster Galaxy (GMBCG) algorithm to SDSS Data Release 7 data. The algorithm detects clusters by identifying the red sequence plus Brightest Cluster Galaxy (BCG) feature, which is unique for galaxy clusters and does not exist among field galaxies. Red sequence clustering in color space is detected using an Error Corrected Gaussian Mixture Model. We run GMBCG on 8240 square degrees of photometric data from SDSS DR7 to assemble the largest ever optical galaxy cluster catalog, consisting of over 55,000 rich clusters across the redshift range from 0.1 < z < 0.55. We present Monte Carlo tests of completeness and purity and perform cross-matching with X-ray clusters and with the maxBCG sample at low redshift. These tests indicate high completeness and purity across the full redshift range for clusters with 15 or more members., Comment: Updated to match the published version. The catalog can be accessed from: http://home.fnal.gov/~jghao/gmbcg_sdss_catalog.html

Published

2010

16. Gemini/GMOS Spectroscopy of 26 Strong Lensing Selected Galaxy Cluster Cores

Author

Bayliss, Matthew B., Hennawi, Joseph F., Gladders, Michael D., Koester, Benjamin P., Sharon, Keren, Dahle, Hakon, Oguri, Masamune, Bayliss, Matthew B., Hennawi, Joseph F., Gladders, Michael D., Koester, Benjamin P., Sharon, Keren, Dahle, Hakon, and Oguri, Masamune

Abstract

We present results from a spectroscopic program targeting 26 strong lensing cluster cores that were visually identified in the Sloan Digital Sky Survey (SDSS) and the Second Red-Sequence Cluster Survey (RCS-2). The 26 galaxy cluster lenses span a redshift range of 0.2 < z < 0.65, and our spectroscopy reveals 69 unique background sources with redshifts as high as z=5.200. We also identify redshifts for 262 cluster member galaxies and measure the velocity dispersions and dynamical masses for 18 clusters where we have redshifts for N \geq 10 cluster member galaxies. We include an accounting for the expected biases in dynamical masses of strong lensing selected clusters as predicted by results from numerical simulations and discuss possible sources of bias in our observations. The median dynamical mass of the 18 clusters with N \geq 10 spectroscopic cluster members is M_{Vir} = 7.84 x 10^14 M_sun h_{0.7}^{-1}, which is somewhat higher than predictions for strong lensing selected clusters in simulations. The disagreement is not significant considering the large uncertainty in our dynamical data, systematic uncertainties in the velocity dispersion calibration, and limitations of the theoretical modeling. Nevertheless our study represents an important first step toward characterizing large samples of clusters that are identified in a systematic way as systems exhibiting dramatic strong lensing features., Comment: 27 Pages, 13 Figures, 4 Tables, eapj, published in ApJS

Published

2010

17. Two Lensed z~3 Lyman Break Galaxies Discovered in the SDSS Giant Arcs Survey

Author

Koester, Benjamin P., Gladders, Michael D., Hennawi, Joseph F., Sharon, Keren, Wuyts, Eva, Rigby, J. R., Bayliss, Matthew B., Dahle, Hakon, Koester, Benjamin P., Gladders, Michael D., Hennawi, Joseph F., Sharon, Keren, Wuyts, Eva, Rigby, J. R., Bayliss, Matthew B., and Dahle, Hakon

Abstract

We report the discovery of two strongly-lensed z ~ 3 Lyman Break Galaxies (LBGs) discovered as u-band dropouts as part of the SDSS Giant Arcs Survey (SGAS). The first, SGAS J122651.3+215220 at z = 2.9233 is lensed by one of several sub-clusters, SDSS J1226+2152, in a complex massive cluster at z = 0.43. Its (g, r, i) magnitudes are (21.14, 20.60, 20.51) which translate to surface brightnesses, mu_{g,r,i}, of (23.78, 23.11, 22.81). The second, SGAS J152745.1+065219, is an LBG at z = 2.7593 lensed by the foreground SDSS J1527+0652 at z = 0.39, with (g, r, z)=(20.90, 20.52, 20.58) and mu_{g,r,z}=(25.15, 24.52, 24.12). Moderate resolution spectroscopy confirms the redshifts suggested by photometric breaks, and shows both absorption and emission features typical of LBGs. Lens mass models derived from combined imaging and spectroscopy reveal that SGAS J122651.3+215220 is a highly magnified source (M ~40), while SGAS J152745.1+065219 is magnified by no more than M ~ 15. Compared to LBG survey results (Steidel et al. 2003), the luminosities and lensing-corrected magnitudes suggest that SGAS J122651.3+215220 is among the faintest 20% of LBGs in that sample. SGAS J152745.1+065219, on the other hand, appears to be more representative of the average LBG, similar to the "Cosmic Eye"., Comment: 5 pages, 3 figures, 1 Table (emulateapj). Submitted to ApJL

Published

2010

18. A bright, spatially extended lensed galaxy at z = 1.7 behind the cluster RCS2 032727-132623

Author

Wuyts, Eva, Barrientos, L. Felipe, Gladders, Michael D., Sharon, Keren, Bayliss, Matthew B., Carrasco, Mauricio, Gilbank, David, Yee, H. K. C., Koester, Benjamin P., Muñoz, Roberto, Wuyts, Eva, Barrientos, L. Felipe, Gladders, Michael D., Sharon, Keren, Bayliss, Matthew B., Carrasco, Mauricio, Gilbank, David, Yee, H. K. C., Koester, Benjamin P., and Muñoz, Roberto

Abstract

We present the discovery of an extremely bright and extended lensed source from the second Red Sequence Cluster Survey (RCS2). RCSGA 032727-132609 is spectroscopically confirmed as a giant arc and counter-image of a background galaxy at $z=1.701$, strongly-lensed by the foreground galaxy cluster RCS2 032727-132623 at $z=0.564$. The giant arc extends over $\sim 38$\,\arcsec and has an integrated $g$-band magnitude of 19.15, making it $\sim 20$ times larger and $\sim 4$ times brighter than the prototypical lensed galaxy MS1512-cB58. This is the brightest distant lensed galaxy in the Universe known to date. Its location in the `redshift desert' provides unique opportunities to connect between the large samples of galaxies known at $z\sim3$ and $z\sim1$. We have collected photometry in 9 bands, ranging from $u$ to $K_s$, which densely sample the rest-frame UV and optical light, including the age-sensitive 4000\AA\ break. A lens model is constructed for the system, and results in a robust total magnification of $2.04 \pm 0.16$ for the counter-image; we estimate an average magnification of $17.2 \pm 1.4$ for the giant arc based on the relative physical scales of the arc and counter-image. Fits of single-component spectral energy distribution (SED) models to the photometry result in a moderately young age, $t = 115 \pm 65$\,Myr, small amounts of dust, $E(B-V) \le 0.035$, and an exponentially declining star formation history with \textit{e}-folding time $\tau = 10-100$\,Myr. After correcting for the lensing magnification, we find a stellar mass of $\log(\mathrm{M}/\mathrm{M}_\odot)=10.0 \pm 0.1$. Allowing for episodic star formation, an underlying old burst could contain up to twice the mass inferred from single-component modeling. This stellar mass estimate is consistent with the average stellar mass of a sample of `BM' galaxies ($1.4 < z < 2.0$) studied by Reddy et al. (2006)., Comment: 13 pages, 8 figures, abstract abridged

Published

2010

19. Alignment of Brightest Cluster Galaxies with their Host Clusters

Author

Niederste-Ostholt, Martin, Strauss, Michael A., Dong, Feng, Koester, Benjamin P., McKay, Timothy A., Niederste-Ostholt, Martin, Strauss, Michael A., Dong, Feng, Koester, Benjamin P., and McKay, Timothy A.

Abstract

We examine the alignment between Brightest Cluster Galaxies (BCGs) and their host clusters in a sample of 7031 clusters with 0.080.65 mag brighter than the mean of the second and third ranked galaxies) show stronger alignment than do clusters with less dominant BCGs at the 4.4 sigma level. Rich clusters show a stronger alignment than do poor clusters at the 2.3 sigma level. Low redshift clusters (z<0.26) show more alignment than do high redshift (z>0.26) clusters, with a difference significant at the 3.0 sigma level. Our results do not depend on the algorithm used to select the cluster sample, suggesting that they are not biased by systematics of either algorithm. The correlation between BCG dominance and cluster alignment may be a consequence of the hierarchical merging process which forms the cluster. The observed redshift evolution may follow from secondary infall at late redshifts., Comment: 15 pages, 12 Figures, 10 Tables, Accepted for publication in MNRAS

Published

2010

20. Two Lensed Lyman-alpha Emitting Galaxies at z~5

Author

Bayliss, Matthew B., Wuyts, Eva, Sharon, Keren, Gladders, Michael D., Hennawi, Joseph F., Koester, Benjamin P., Dahle, Hakon, Bayliss, Matthew B., Wuyts, Eva, Sharon, Keren, Gladders, Michael D., Hennawi, Joseph F., Koester, Benjamin P., and Dahle, Hakon

Abstract

We present observations of two strongly lensed $z\sim5$ Lyman-$\alpha$ Emitting (LAE) galaxies that were discovered in the Sloan Giant Arcs Survey (SGAS). We identify the two sources as SGAS J091541+382655, at $z=5.200$, and SGAS J134331+415455 at $z=4.994$. We measure their AB magnitudes at $(i,z)=(23.34\pm0.09,23.29\pm0.13$) mags and $(i,z)=(23.78\pm0.18,24.24^{+0.18}_{-0.16}$) mags, and the rest-frame equivalent widths of the Lyman-$\alpha$ emission at $25.3\pm4.1$\AA~and $135.6\pm20.3$\AA~for SGAS J091541+382655 and SGAS J134331+415455, respectively. Each source is strongly lensed by a massive galaxy cluster in the foreground, and the magnifications due to gravitational lensing are recovered from strong lens modeling of the foreground lensing potentials. We use the magnification to calculate the intrinsic, unlensed Lyman-$\alpha$ and UV continuum luminosities for both sources, as well as the implied star formation rates (SFR). We find SGAS J091541+382655 and SGAS J134341+415455 to be galaxies with (L$_{Ly-\alpha}$, L$_{UV})\leq(0.6$L$_{Ly-\alpha}^{*}, 2$L$_{UV}^{*}$) and (L$_{Ly-\alpha}$, L$_{UV})=(0.5$L$_{Ly-\alpha}^{*}, 0.9$L$_{UV}^{*}$), respectively. Comparison of the spectral energy distributions (SEDs) of both sources against stellar population models produces estimates of the mass in young stars in each galaxy: we report an upper limit of M$_{stars} \leq 7.9^{+3.7}_{-2.5} \times 10^{7}$ M$_{\sun} h_{0.7}^{-1}$ for SGAS J091531+382655, and a range of viable masses for SGAS J134331+415455 of $2\times10^{8}$ M$_{\sun} h_{0.7}^{-1} <$ M$_{stars} < 6\times10^{9}$ M$_{\sun} h_{0.7}^{-1}$., Comment: 10 pages, 8 figures, emulate apj format, Accepted to ApJ

Published

2010

21. The Redshift Distribution of Giant Arcs in the Sloan Giant Arcs Survey

Author

Bayliss, Matthew B., Gladders, Michael D., Oguri, Masamune, Hennawi, Joseph F., Sharon, Keren, Koester, Benjamin P., Dahle, Hakon, Bayliss, Matthew B., Gladders, Michael D., Oguri, Masamune, Hennawi, Joseph F., Sharon, Keren, Koester, Benjamin P., and Dahle, Hakon

Abstract

We measure the redshift distribution of a sample of 28 giant arcs discovered as a part of the Sloan Giant Arcs Survey (SGAS). Gemini/GMOS-North spectroscopy provides precise redshifts for 24 arcs, and "redshift desert" constraints for the remaining four. This is a direct measurement of the redshift distribution of a uniformly selected sample of bright giant arcs, which is an observable that can be used to inform efforts to predict giant arc statistics. Our primary giant arc sample has a median redshift z=1.821 and nearly two thirds of the arcs - 64% - are sources at z \gtrsim 1.4, indicating that the population of background sources that are strongly lensed into bright giant arcs resides primarily at high redshift. We also analyze the distribution of redshifts for 19 secondary strongly lensed background sources that are not visually apparent in SDSS imaging, but were identified in deeper follow-up imaging of the lensing cluster fields. Our redshift sample for the secondary sources is not spectroscopically complete, but combining it with our primary giant arc sample suggests that a large fraction of all background galaxies which are strongly lensed by foreground clusters reside at z \gtrsim 1.4. Kolmogorov-Smirnov (KS) tests indicate that our well-selected, spectroscopically complete primary giant arc redshift sample can be reproduced with a model distribution that is constructed from a combination of results from studies of strong lensing clusters in numerical simulations, and observational constraints on the galaxy luminosity function., Comment: eapj format, 6 Pages, 2 Figures, 2 Tables. Published in ApJ Letters

Published

2010

22. A GMBCG Galaxy Cluster Catalog of 55,424 Rich Clusters from SDSS DR7

Author

Hao, Jiangang, McKay, Timothy A., Koester, Benjamin P., Rykoff, Eli S., Rozo, Eduardo, Annis, James, Wechsler, Risa H., Evrard, August, Siegel, Seth R., Becker, Matthew, Busha, Michael, Gerdes, David, Johnston, David E., Sheldon, Erin, Hao, Jiangang, McKay, Timothy A., Koester, Benjamin P., Rykoff, Eli S., Rozo, Eduardo, Annis, James, Wechsler, Risa H., Evrard, August, Siegel, Seth R., Becker, Matthew, Busha, Michael, Gerdes, David, Johnston, David E., and Sheldon, Erin

Abstract

We present a large catalog of optically selected galaxy clusters from the application of a new Gaussian Mixture Brightest Cluster Galaxy (GMBCG) algorithm to SDSS Data Release 7 data. The algorithm detects clusters by identifying the red sequence plus Brightest Cluster Galaxy (BCG) feature, which is unique for galaxy clusters and does not exist among field galaxies. Red sequence clustering in color space is detected using an Error Corrected Gaussian Mixture Model. We run GMBCG on 8240 square degrees of photometric data from SDSS DR7 to assemble the largest ever optical galaxy cluster catalog, consisting of over 55,000 rich clusters across the redshift range from 0.1 < z < 0.55. We present Monte Carlo tests of completeness and purity and perform cross-matching with X-ray clusters and with the maxBCG sample at low redshift. These tests indicate high completeness and purity across the full redshift range for clusters with 15 or more members., Comment: Updated to match the published version. The catalog can be accessed from: http://home.fnal.gov/~jghao/gmbcg_sdss_catalog.html

Published

2010

23. Gemini/GMOS Spectroscopy of 26 Strong Lensing Selected Galaxy Cluster Cores

Author

Bayliss, Matthew B., Hennawi, Joseph F., Gladders, Michael D., Koester, Benjamin P., Sharon, Keren, Dahle, Hakon, Oguri, Masamune, Bayliss, Matthew B., Hennawi, Joseph F., Gladders, Michael D., Koester, Benjamin P., Sharon, Keren, Dahle, Hakon, and Oguri, Masamune

Abstract

We present results from a spectroscopic program targeting 26 strong lensing cluster cores that were visually identified in the Sloan Digital Sky Survey (SDSS) and the Second Red-Sequence Cluster Survey (RCS-2). The 26 galaxy cluster lenses span a redshift range of 0.2 < z < 0.65, and our spectroscopy reveals 69 unique background sources with redshifts as high as z=5.200. We also identify redshifts for 262 cluster member galaxies and measure the velocity dispersions and dynamical masses for 18 clusters where we have redshifts for N \geq 10 cluster member galaxies. We include an accounting for the expected biases in dynamical masses of strong lensing selected clusters as predicted by results from numerical simulations and discuss possible sources of bias in our observations. The median dynamical mass of the 18 clusters with N \geq 10 spectroscopic cluster members is M_{Vir} = 7.84 x 10^14 M_sun h_{0.7}^{-1}, which is somewhat higher than predictions for strong lensing selected clusters in simulations. The disagreement is not significant considering the large uncertainty in our dynamical data, systematic uncertainties in the velocity dispersion calibration, and limitations of the theoretical modeling. Nevertheless our study represents an important first step toward characterizing large samples of clusters that are identified in a systematic way as systems exhibiting dramatic strong lensing features., Comment: 27 Pages, 13 Figures, 4 Tables, eapj, published in ApJS

Published

2010

24. A bright, spatially extended lensed galaxy at z = 1.7 behind the cluster RCS2 032727-132623

Author

Wuyts, Eva, Barrientos, L. Felipe, Gladders, Michael D., Sharon, Keren, Bayliss, Matthew B., Carrasco, Mauricio, Gilbank, David, Yee, H. K. C., Koester, Benjamin P., Muñoz, Roberto, Wuyts, Eva, Barrientos, L. Felipe, Gladders, Michael D., Sharon, Keren, Bayliss, Matthew B., Carrasco, Mauricio, Gilbank, David, Yee, H. K. C., Koester, Benjamin P., and Muñoz, Roberto

Abstract

We present the discovery of an extremely bright and extended lensed source from the second Red Sequence Cluster Survey (RCS2). RCSGA 032727-132609 is spectroscopically confirmed as a giant arc and counter-image of a background galaxy at $z=1.701$, strongly-lensed by the foreground galaxy cluster RCS2 032727-132623 at $z=0.564$. The giant arc extends over $\sim 38$\,\arcsec and has an integrated $g$-band magnitude of 19.15, making it $\sim 20$ times larger and $\sim 4$ times brighter than the prototypical lensed galaxy MS1512-cB58. This is the brightest distant lensed galaxy in the Universe known to date. Its location in the `redshift desert' provides unique opportunities to connect between the large samples of galaxies known at $z\sim3$ and $z\sim1$. We have collected photometry in 9 bands, ranging from $u$ to $K_s$, which densely sample the rest-frame UV and optical light, including the age-sensitive 4000\AA\ break. A lens model is constructed for the system, and results in a robust total magnification of $2.04 \pm 0.16$ for the counter-image; we estimate an average magnification of $17.2 \pm 1.4$ for the giant arc based on the relative physical scales of the arc and counter-image. Fits of single-component spectral energy distribution (SED) models to the photometry result in a moderately young age, $t = 115 \pm 65$\,Myr, small amounts of dust, $E(B-V) \le 0.035$, and an exponentially declining star formation history with \textit{e}-folding time $\tau = 10-100$\,Myr. After correcting for the lensing magnification, we find a stellar mass of $\log(\mathrm{M}/\mathrm{M}_\odot)=10.0 \pm 0.1$. Allowing for episodic star formation, an underlying old burst could contain up to twice the mass inferred from single-component modeling. This stellar mass estimate is consistent with the average stellar mass of a sample of `BM' galaxies ($1.4 < z < 2.0$) studied by Reddy et al. (2006)., Comment: 13 pages, 8 figures, abstract abridged

Published

2010

25. Two Lensed z~3 Lyman Break Galaxies Discovered in the SDSS Giant Arcs Survey

Author

Koester, Benjamin P., Gladders, Michael D., Hennawi, Joseph F., Sharon, Keren, Wuyts, Eva, Rigby, J. R., Bayliss, Matthew B., Dahle, Hakon, Koester, Benjamin P., Gladders, Michael D., Hennawi, Joseph F., Sharon, Keren, Wuyts, Eva, Rigby, J. R., Bayliss, Matthew B., and Dahle, Hakon

Abstract

We report the discovery of two strongly-lensed z ~ 3 Lyman Break Galaxies (LBGs) discovered as u-band dropouts as part of the SDSS Giant Arcs Survey (SGAS). The first, SGAS J122651.3+215220 at z = 2.9233 is lensed by one of several sub-clusters, SDSS J1226+2152, in a complex massive cluster at z = 0.43. Its (g, r, i) magnitudes are (21.14, 20.60, 20.51) which translate to surface brightnesses, mu_{g,r,i}, of (23.78, 23.11, 22.81). The second, SGAS J152745.1+065219, is an LBG at z = 2.7593 lensed by the foreground SDSS J1527+0652 at z = 0.39, with (g, r, z)=(20.90, 20.52, 20.58) and mu_{g,r,z}=(25.15, 24.52, 24.12). Moderate resolution spectroscopy confirms the redshifts suggested by photometric breaks, and shows both absorption and emission features typical of LBGs. Lens mass models derived from combined imaging and spectroscopy reveal that SGAS J122651.3+215220 is a highly magnified source (M ~40), while SGAS J152745.1+065219 is magnified by no more than M ~ 15. Compared to LBG survey results (Steidel et al. 2003), the luminosities and lensing-corrected magnitudes suggest that SGAS J122651.3+215220 is among the faintest 20% of LBGs in that sample. SGAS J152745.1+065219, on the other hand, appears to be more representative of the average LBG, similar to the "Cosmic Eye"., Comment: 5 pages, 3 figures, 1 Table (emulateapj). Submitted to ApJL

Published

2010

26. Alignment of Brightest Cluster Galaxies with their Host Clusters

Author

Niederste-Ostholt, Martin, Strauss, Michael A., Dong, Feng, Koester, Benjamin P., McKay, Timothy A., Niederste-Ostholt, Martin, Strauss, Michael A., Dong, Feng, Koester, Benjamin P., and McKay, Timothy A.

Abstract

We examine the alignment between Brightest Cluster Galaxies (BCGs) and their host clusters in a sample of 7031 clusters with 0.080.65 mag brighter than the mean of the second and third ranked galaxies) show stronger alignment than do clusters with less dominant BCGs at the 4.4 sigma level. Rich clusters show a stronger alignment than do poor clusters at the 2.3 sigma level. Low redshift clusters (z<0.26) show more alignment than do high redshift (z>0.26) clusters, with a difference significant at the 3.0 sigma level. Our results do not depend on the algorithm used to select the cluster sample, suggesting that they are not biased by systematics of either algorithm. The correlation between BCG dominance and cluster alignment may be a consequence of the hierarchical merging process which forms the cluster. The observed redshift evolution may follow from secondary infall at late redshifts., Comment: 15 pages, 12 Figures, 10 Tables, Accepted for publication in MNRAS

Published

2010

27. Two Lensed Lyman-alpha Emitting Galaxies at z~5

Author

Bayliss, Matthew B., Wuyts, Eva, Sharon, Keren, Gladders, Michael D., Hennawi, Joseph F., Koester, Benjamin P., Dahle, Hakon, Bayliss, Matthew B., Wuyts, Eva, Sharon, Keren, Gladders, Michael D., Hennawi, Joseph F., Koester, Benjamin P., and Dahle, Hakon

Abstract

We present observations of two strongly lensed $z\sim5$ Lyman-$\alpha$ Emitting (LAE) galaxies that were discovered in the Sloan Giant Arcs Survey (SGAS). We identify the two sources as SGAS J091541+382655, at $z=5.200$, and SGAS J134331+415455 at $z=4.994$. We measure their AB magnitudes at $(i,z)=(23.34\pm0.09,23.29\pm0.13$) mags and $(i,z)=(23.78\pm0.18,24.24^{+0.18}_{-0.16}$) mags, and the rest-frame equivalent widths of the Lyman-$\alpha$ emission at $25.3\pm4.1$\AA~and $135.6\pm20.3$\AA~for SGAS J091541+382655 and SGAS J134331+415455, respectively. Each source is strongly lensed by a massive galaxy cluster in the foreground, and the magnifications due to gravitational lensing are recovered from strong lens modeling of the foreground lensing potentials. We use the magnification to calculate the intrinsic, unlensed Lyman-$\alpha$ and UV continuum luminosities for both sources, as well as the implied star formation rates (SFR). We find SGAS J091541+382655 and SGAS J134341+415455 to be galaxies with (L$_{Ly-\alpha}$, L$_{UV})\leq(0.6$L$_{Ly-\alpha}^{*}, 2$L$_{UV}^{*}$) and (L$_{Ly-\alpha}$, L$_{UV})=(0.5$L$_{Ly-\alpha}^{*}, 0.9$L$_{UV}^{*}$), respectively. Comparison of the spectral energy distributions (SEDs) of both sources against stellar population models produces estimates of the mass in young stars in each galaxy: we report an upper limit of M$_{stars} \leq 7.9^{+3.7}_{-2.5} \times 10^{7}$ M$_{\sun} h_{0.7}^{-1}$ for SGAS J091531+382655, and a range of viable masses for SGAS J134331+415455 of $2\times10^{8}$ M$_{\sun} h_{0.7}^{-1} <$ M$_{stars} < 6\times10^{9}$ M$_{\sun} h_{0.7}^{-1}$., Comment: 10 pages, 8 figures, emulate apj format, Accepted to ApJ

Published

2010

28. Precision Measurements of the Cluster Red Sequence using an Error Corrected Gaussian Mixture Model

Author

Hao, Jiangang, Koester, Benjamin P., Mckay, Timothy A., Rykoff, Eli S., Rozo, Eduardo, Evrard, August, Annis, James, Becker, Matthew, Busha, Michael, Gerdes, David, Johnston, David E., Sheldon, Erin, Wechsler, Risa H., Hao, Jiangang, Koester, Benjamin P., Mckay, Timothy A., Rykoff, Eli S., Rozo, Eduardo, Evrard, August, Annis, James, Becker, Matthew, Busha, Michael, Gerdes, David, Johnston, David E., Sheldon, Erin, and Wechsler, Risa H.

Abstract

The red sequence is an important feature of galaxy clusters and plays a crucial role in optical cluster detection. Measurement of the slope and scatter of the red sequence are affected both by selection of red sequence galaxies and measurement errors. In this paper, we describe a new error corrected Gaussian Mixture Model for red sequence galaxy identification. Using this technique, we can remove the effects of measurement error and extract unbiased information about the intrinsic properties of the red sequence. We use this method to select red sequence galaxies in each of the 13,823 clusters in the maxBCG catalog, and measure the red sequence ridgeline location and scatter of each. These measurements provide precise constraints on the variation of the average red galaxy populations in the observed frame with redshift. We find that the scatter of the red sequence ridgeline increases mildly with redshift, and that the slope decreases with redshift. We also observe that the slope does not strongly depend on cluster richness. Using similar methods, we show that this behavior is mirrored in a spectroscopic sample of field galaxies, further emphasizing that ridgeline properties are independent of environment., Comment: 33 pages, 14 Figures; A typo in Eq.A11 is fixed. The C++/Python codes for ECGMM can be downloaded from: https://sites.google.com/site/jiangangecgmm

Published

2009

29. Galaxy Clusters in Formation: Determining the Age of the Red-Sequence in Optical and X-ray Clusters at z~1 with HST

Author

Koester, Benjamin P., Gladders, Michael D., Gilbank, David G., Yee, H. K. C., Barbary, Kyle, Dawson, Kyle S., Meyers, Joshua, Perlmutter, Saul, Rubin, David, Suzuki, Nao, Koester, Benjamin P., Gladders, Michael D., Gilbank, David G., Yee, H. K. C., Barbary, Kyle, Dawson, Kyle S., Meyers, Joshua, Perlmutter, Saul, Rubin, David, and Suzuki, Nao

Abstract

Using deep two-band imaging from the Hubble Space Telescope, we measure the color-magnitude relations (CMR) of E/S0 galaxies in a set of 9 optically-selected clusters principally from the Red-Sequence Cluster Survey (RCS) at 0.9 < z < 1.23. We find that the mean scatter in the CMR in the observed frame of this set of clusters is 0.049 +/- 0.008, as compared to 0.031 +/- 0.007 in a similarly imaged and identically analyzed X-ray sample at similar redshifts. Single-burst stellar population models of the CMR scatter suggest that the E/S0 population in these RCS clusters truncated their star-formation at z~1.6, some 0.9 Gyrs later than their X-ray E/S0 counterparts which were truncated at z~2.1. The notion that this is a manifestation of the differing evolutionary states of the two populations of cluster galaxies is supported by comparison of the fraction of bulge-dominated galaxies found in the two samples which shows that optically-selected clusters contain a smaller fraction of E/S0 galaxies at the their cores, Comment: Withdrawn from ApJL

Published

2009

30. Cosmological Constraints from the SDSS maxBCG Cluster Catalog

Author

Rozo, Eduardo, Wechsler, Risa H., Rykoff, Eli S., Annis, James T., Becker, Matthew R., Evrard, August E., Frieman, Joshua A., Hansen, Sarah M., Hao, Jiangang, Johnston, David E., Koester, Benjamin P., McKay, Timothy A., Sheldon, Erin S., Weinberg, David H., Rozo, Eduardo, Wechsler, Risa H., Rykoff, Eli S., Annis, James T., Becker, Matthew R., Evrard, August E., Frieman, Joshua A., Hansen, Sarah M., Hao, Jiangang, Johnston, David E., Koester, Benjamin P., McKay, Timothy A., Sheldon, Erin S., and Weinberg, David H.

Abstract

We use the abundance and weak lensing mass measurements of the SDSS maxBCG cluster catalog to simultaneously constrain cosmology and the richness--mass relation of the clusters. Assuming a flat \LambdaCDM cosmology, we find \sigma_8(\Omega_m/0.25)^{0.41} = 0.832\pm 0.033 after marginalization over all systematics. In common with previous studies, our error budget is dominated by systematic uncertainties, the primary two being the absolute mass scale of the weak lensing masses of the maxBCG clusters, and uncertainty in the scatter of the richness--mass relation. Our constraints are fully consistent with the WMAP five-year data, and in a joint analysis we find \sigma_8=0.807\pm 0.020 and \Omega_m=0.265\pm 0.016, an improvement of nearly a factor of two relative to WMAP5 alone. Our results are also in excellent agreement with and comparable in precision to the latest cosmological constraints from X-ray cluster abundances. The remarkable consistency among these results demonstrates that cluster abundance constraints are not only tight but also robust, and highlight the power of optically-selected cluster samples to produce precision constraints on cosmological parameters., Comment: comments welcome

Published

2009

31. Subaru Weak Lensing Measurements of Four Strong Lensing Clusters: Are Lensing Clusters Over-Concentrated?

Author

Oguri, Masamune, Hennawi, Joseph F., Gladders, Michael D., Dahle, Haakon, Natarajan, Priyamvada, Dalal, Neal, Koester, Benjamin P., Sharon, Keren, Bayliss, Matthew, Oguri, Masamune, Hennawi, Joseph F., Gladders, Michael D., Dahle, Haakon, Natarajan, Priyamvada, Dalal, Neal, Koester, Benjamin P., Sharon, Keren, and Bayliss, Matthew

Abstract

We derive radial mass profiles of four strong lensing selected clusters which show prominent giant arcs (Abell 1703, SDSS J1446+3032, SDSS J1531+3414, and SDSS J2111-0115), by combining detailed strong lens modeling with weak lensing shear measured from deep Subaru Suprime-cam images. Weak lensing signals are detected at high significance for all four clusters, whose redshifts range from z=0.28 to 0.64. We demonstrate that adding strong lensing information with known arc redshifts significantly improves constraints on the mass density profile, compared to those obtained from weak lensing alone. While the mass profiles are well fitted by the universal form predicted in N-body simulations of the LCDM model, all four clusters appear to be slightly more centrally concentrated (the concentration parameters c_vir \sim 8) than theoretical predictions, even after accounting for the bias toward higher concentrations inherent in lensing selected samples. Our results are consistent with previous studies which similarly detected a concentration excess, and increases the total number of clusters studied with the combined strong and weak lensing technique to ten. Combining our sample with previous work, we find that clusters with larger Einstein radii are more anomalously concentrated. We also present a detailed model of the lensing cluster A1703 with constraints from multiple image families, and find the dark matter inner density profile to be cuspy with the slope consistent with -1, in agreement with expectations., Comment: 41 pages, 9 figures, 7 tables, accepted for publication in ApJ

Published

2009

32. Precision Measurements of the Cluster Red Sequence using an Error Corrected Gaussian Mixture Model

Author

Hao, Jiangang, Koester, Benjamin P., Mckay, Timothy A., Rykoff, Eli S., Rozo, Eduardo, Evrard, August, Annis, James, Becker, Matthew, Busha, Michael, Gerdes, David, Johnston, David E., Sheldon, Erin, Wechsler, Risa H., Hao, Jiangang, Koester, Benjamin P., Mckay, Timothy A., Rykoff, Eli S., Rozo, Eduardo, Evrard, August, Annis, James, Becker, Matthew, Busha, Michael, Gerdes, David, Johnston, David E., Sheldon, Erin, and Wechsler, Risa H.

Abstract

The red sequence is an important feature of galaxy clusters and plays a crucial role in optical cluster detection. Measurement of the slope and scatter of the red sequence are affected both by selection of red sequence galaxies and measurement errors. In this paper, we describe a new error corrected Gaussian Mixture Model for red sequence galaxy identification. Using this technique, we can remove the effects of measurement error and extract unbiased information about the intrinsic properties of the red sequence. We use this method to select red sequence galaxies in each of the 13,823 clusters in the maxBCG catalog, and measure the red sequence ridgeline location and scatter of each. These measurements provide precise constraints on the variation of the average red galaxy populations in the observed frame with redshift. We find that the scatter of the red sequence ridgeline increases mildly with redshift, and that the slope decreases with redshift. We also observe that the slope does not strongly depend on cluster richness. Using similar methods, we show that this behavior is mirrored in a spectroscopic sample of field galaxies, further emphasizing that ridgeline properties are independent of environment., Comment: 33 pages, 14 Figures; A typo in Eq.A11 is fixed. The C++/Python codes for ECGMM can be downloaded from: https://sites.google.com/site/jiangangecgmm

Published

2009

33. Galaxy Clusters in Formation: Determining the Age of the Red-Sequence in Optical and X-ray Clusters at z~1 with HST

Author

Koester, Benjamin P., Gladders, Michael D., Gilbank, David G., Yee, H. K. C., Barbary, Kyle, Dawson, Kyle S., Meyers, Joshua, Perlmutter, Saul, Rubin, David, Suzuki, Nao, Koester, Benjamin P., Gladders, Michael D., Gilbank, David G., Yee, H. K. C., Barbary, Kyle, Dawson, Kyle S., Meyers, Joshua, Perlmutter, Saul, Rubin, David, and Suzuki, Nao

Abstract

Using deep two-band imaging from the Hubble Space Telescope, we measure the color-magnitude relations (CMR) of E/S0 galaxies in a set of 9 optically-selected clusters principally from the Red-Sequence Cluster Survey (RCS) at 0.9 < z < 1.23. We find that the mean scatter in the CMR in the observed frame of this set of clusters is 0.049 +/- 0.008, as compared to 0.031 +/- 0.007 in a similarly imaged and identically analyzed X-ray sample at similar redshifts. Single-burst stellar population models of the CMR scatter suggest that the E/S0 population in these RCS clusters truncated their star-formation at z~1.6, some 0.9 Gyrs later than their X-ray E/S0 counterparts which were truncated at z~2.1. The notion that this is a manifestation of the differing evolutionary states of the two populations of cluster galaxies is supported by comparison of the fraction of bulge-dominated galaxies found in the two samples which shows that optically-selected clusters contain a smaller fraction of E/S0 galaxies at the their cores, Comment: Withdrawn from ApJL

Published

2009

34. Cosmological Constraints from the SDSS maxBCG Cluster Catalog

Author

Rozo, Eduardo, Wechsler, Risa H., Rykoff, Eli S., Annis, James T., Becker, Matthew R., Evrard, August E., Frieman, Joshua A., Hansen, Sarah M., Hao, Jiangang, Johnston, David E., Koester, Benjamin P., McKay, Timothy A., Sheldon, Erin S., Weinberg, David H., Rozo, Eduardo, Wechsler, Risa H., Rykoff, Eli S., Annis, James T., Becker, Matthew R., Evrard, August E., Frieman, Joshua A., Hansen, Sarah M., Hao, Jiangang, Johnston, David E., Koester, Benjamin P., McKay, Timothy A., Sheldon, Erin S., and Weinberg, David H.

Abstract

We use the abundance and weak lensing mass measurements of the SDSS maxBCG cluster catalog to simultaneously constrain cosmology and the richness--mass relation of the clusters. Assuming a flat \LambdaCDM cosmology, we find \sigma_8(\Omega_m/0.25)^{0.41} = 0.832\pm 0.033 after marginalization over all systematics. In common with previous studies, our error budget is dominated by systematic uncertainties, the primary two being the absolute mass scale of the weak lensing masses of the maxBCG clusters, and uncertainty in the scatter of the richness--mass relation. Our constraints are fully consistent with the WMAP five-year data, and in a joint analysis we find \sigma_8=0.807\pm 0.020 and \Omega_m=0.265\pm 0.016, an improvement of nearly a factor of two relative to WMAP5 alone. Our results are also in excellent agreement with and comparable in precision to the latest cosmological constraints from X-ray cluster abundances. The remarkable consistency among these results demonstrates that cluster abundance constraints are not only tight but also robust, and highlight the power of optically-selected cluster samples to produce precision constraints on cosmological parameters., Comment: comments welcome

Published

2009

35. Subaru Weak Lensing Measurements of Four Strong Lensing Clusters: Are Lensing Clusters Over-Concentrated?

Author

Oguri, Masamune, Hennawi, Joseph F., Gladders, Michael D., Dahle, Haakon, Natarajan, Priyamvada, Dalal, Neal, Koester, Benjamin P., Sharon, Keren, Bayliss, Matthew, Oguri, Masamune, Hennawi, Joseph F., Gladders, Michael D., Dahle, Haakon, Natarajan, Priyamvada, Dalal, Neal, Koester, Benjamin P., Sharon, Keren, and Bayliss, Matthew

Abstract

We derive radial mass profiles of four strong lensing selected clusters which show prominent giant arcs (Abell 1703, SDSS J1446+3032, SDSS J1531+3414, and SDSS J2111-0115), by combining detailed strong lens modeling with weak lensing shear measured from deep Subaru Suprime-cam images. Weak lensing signals are detected at high significance for all four clusters, whose redshifts range from z=0.28 to 0.64. We demonstrate that adding strong lensing information with known arc redshifts significantly improves constraints on the mass density profile, compared to those obtained from weak lensing alone. While the mass profiles are well fitted by the universal form predicted in N-body simulations of the LCDM model, all four clusters appear to be slightly more centrally concentrated (the concentration parameters c_vir \sim 8) than theoretical predictions, even after accounting for the bias toward higher concentrations inherent in lensing selected samples. Our results are consistent with previous studies which similarly detected a concentration excess, and increases the total number of clusters studied with the combined strong and weak lensing technique to ten. Combining our sample with previous work, we find that clusters with larger Einstein radii are more anomalously concentrated. We also present a detailed model of the lensing cluster A1703 with constraints from multiple image families, and find the dark matter inner density profile to be cuspy with the slope consistent with -1, in agreement with expectations., Comment: 41 pages, 9 figures, 7 tables, accepted for publication in ApJ

Published

2009

36. An Improved Cluster Richness Estimator

Author

Rozo, Eduardo, Rykoff, Eli S., Koester, Benjamin P., McKay, Timothy, Hao, Jiangang, Evrard, August, Wechsler, Risa H., Hansen, Sarah, Sheldon, Erin, Johnston, David, Becker, Matthew, Annis, James, Bleem, Lindsey, Scranton, Ryan, Rozo, Eduardo, Rykoff, Eli S., Koester, Benjamin P., McKay, Timothy, Hao, Jiangang, Evrard, August, Wechsler, Risa H., Hansen, Sarah, Sheldon, Erin, Johnston, David, Becker, Matthew, Annis, James, Bleem, Lindsey, and Scranton, Ryan

Abstract

Minimizing the scatter between cluster mass and accessible observables is an important goal for cluster cosmology. In this work, we introduce a new matched filter richness estimator, and test its performance using the maxBCG cluster catalog. Our new estimator significantly reduces the variance in the L_X-richness relation, from \sigma_{\ln L_X}^2=(0.86\pm0.02)^2 to \sigma_{\ln L_X}^2=(0.69\pm0.02)^2. Relative to the maxBCG richness estimate, it also removes the strong redshift dependence of the richness scaling relations, and is significantly more robust to photometric and redshift errors. These improvements are largely due to our more sophisticated treatment of galaxy color data. We also demonstrate the scatter in the L_X-richness relation depends on the aperture used to estimate cluster richness, and introduce a novel approach for optimizing said aperture which can be easily generalized to other mass tracers., Comment: 12 pages, 5 figures, submitted to ApJ

Published

2008

37. Constraining the Scatter in the Mass-Richness Relation of maxBCG Clusters With Weak Lensing and X-ray Data

Author

Rozo, Eduardo, Rykoff, Eli S., Evrard, August, Becker, Matthew, McKay, Timothy, Wechsler, Risa H., Koester, Benjamin P., Hao, Jiangang, Hansen, Sarah, Sheldon, Erin, Johnston, David, Annis, James, Frieman, Joshua, Rozo, Eduardo, Rykoff, Eli S., Evrard, August, Becker, Matthew, McKay, Timothy, Wechsler, Risa H., Koester, Benjamin P., Hao, Jiangang, Hansen, Sarah, Sheldon, Erin, Johnston, David, Annis, James, and Frieman, Joshua

Abstract

We measure the logarithmic scatter in mass at fixed richness for clusters in the maxBCG cluster catalog, an optically selected cluster sample drawn from SDSS imaging data. Our measurement is achieved by demanding consistency between available weak lensing and X-ray measurements of the maxBCG clusters, and the X-ray luminosity--mass relation inferred from the 400d X-ray cluster survey, a flux limited X-ray cluster survey. We find \sigma_{\ln M|N_{200}}=0.45^{+0.20}_{-0.18} (95% CL) at N_{200} ~ 40, where N_{200} is the number of red sequence galaxies in a cluster. As a byproduct of our analysis, we also obtain a constraint on the correlation coefficient between \ln Lx and \ln M at fixed richness, which is best expressed as a lower limit, r_{L,M|N} >= 0.85 (95% CL). This is the first observational constraint placed on a correlation coefficient involving two different cluster mass tracers. We use our results to produce a state of the art estimate of the halo mass function at z=0.23 -- the median redshift of the maxBCG cluster sample -- and find that it is consistent with the WMAP5 cosmology. Both the mass function data and its covariance matrix are presented., Comment: 14 pages, 6 figures, submitted to ApJ

Published

2008

38. An Improved Cluster Richness Estimator

Author

Rozo, Eduardo, Rykoff, Eli S., Koester, Benjamin P., McKay, Timothy, Hao, Jiangang, Evrard, August, Wechsler, Risa H., Hansen, Sarah, Sheldon, Erin, Johnston, David, Becker, Matthew, Annis, James, Bleem, Lindsey, Scranton, Ryan, Rozo, Eduardo, Rykoff, Eli S., Koester, Benjamin P., McKay, Timothy, Hao, Jiangang, Evrard, August, Wechsler, Risa H., Hansen, Sarah, Sheldon, Erin, Johnston, David, Becker, Matthew, Annis, James, Bleem, Lindsey, and Scranton, Ryan

Abstract

Minimizing the scatter between cluster mass and accessible observables is an important goal for cluster cosmology. In this work, we introduce a new matched filter richness estimator, and test its performance using the maxBCG cluster catalog. Our new estimator significantly reduces the variance in the L_X-richness relation, from \sigma_{\ln L_X}^2=(0.86\pm0.02)^2 to \sigma_{\ln L_X}^2=(0.69\pm0.02)^2. Relative to the maxBCG richness estimate, it also removes the strong redshift dependence of the richness scaling relations, and is significantly more robust to photometric and redshift errors. These improvements are largely due to our more sophisticated treatment of galaxy color data. We also demonstrate the scatter in the L_X-richness relation depends on the aperture used to estimate cluster richness, and introduce a novel approach for optimizing said aperture which can be easily generalized to other mass tracers., Comment: 12 pages, 5 figures, submitted to ApJ

Published

2008

39. Constraining the Scatter in the Mass-Richness Relation of maxBCG Clusters With Weak Lensing and X-ray Data

Author

Rozo, Eduardo, Rykoff, Eli S., Evrard, August, Becker, Matthew, McKay, Timothy, Wechsler, Risa H., Koester, Benjamin P., Hao, Jiangang, Hansen, Sarah, Sheldon, Erin, Johnston, David, Annis, James, Frieman, Joshua, Rozo, Eduardo, Rykoff, Eli S., Evrard, August, Becker, Matthew, McKay, Timothy, Wechsler, Risa H., Koester, Benjamin P., Hao, Jiangang, Hansen, Sarah, Sheldon, Erin, Johnston, David, Annis, James, and Frieman, Joshua

Abstract

We measure the logarithmic scatter in mass at fixed richness for clusters in the maxBCG cluster catalog, an optically selected cluster sample drawn from SDSS imaging data. Our measurement is achieved by demanding consistency between available weak lensing and X-ray measurements of the maxBCG clusters, and the X-ray luminosity--mass relation inferred from the 400d X-ray cluster survey, a flux limited X-ray cluster survey. We find \sigma_{\ln M|N_{200}}=0.45^{+0.20}_{-0.18} (95% CL) at N_{200} ~ 40, where N_{200} is the number of red sequence galaxies in a cluster. As a byproduct of our analysis, we also obtain a constraint on the correlation coefficient between \ln Lx and \ln M at fixed richness, which is best expressed as a lower limit, r_{L,M|N} >= 0.85 (95% CL). This is the first observational constraint placed on a correlation coefficient involving two different cluster mass tracers. We use our results to produce a state of the art estimate of the halo mass function at z=0.23 -- the median redshift of the maxBCG cluster sample -- and find that it is consistent with the WMAP5 cosmology. Both the mass function data and its covariance matrix are presented., Comment: 14 pages, 6 figures, submitted to ApJ

Published

2008

40. Cosmological Constraints from SDSS maxBCG Cluster Abundances

Author

Rozo, Eduardo, Wechsler, Risa H., Koester, Benjamin P., McKay, Timothy A., Evrard, August E., Johnston, David, Sheldon, Erin S., Annis, James, Frieman, Joshua A., Rozo, Eduardo, Wechsler, Risa H., Koester, Benjamin P., McKay, Timothy A., Evrard, August E., Johnston, David, Sheldon, Erin S., Annis, James, and Frieman, Joshua A.

Abstract

We perform a maximum likelihood analysis of the cluster abundance measured in the SDSS using the maxBCG cluster finding algorithm. Our analysis is aimed at constraining the power spectrum normalization $\sigma_8$, and assumes flat cosmologies with a scale invariant spectrum, massless neutrinos, and CMB and supernova priors Omega_m*h^2=0.128+/-0.01 and h=0.72+/-0.05 respectively. Following the method described in the companion paper Rozo et al. 2007, we derive \sigma_8=0.92+/-0.10$ (1-sigma) after marginalizing over all major systematic uncertainties. We place strong lower limits on the normalization, sigma_8>0.76 (95% CL) (>0.68 at 99% CL). We also find that our analysis favors relatively low values for the slope of the Halo Occupation Distribution (HOD), alpha=0.83+/-0.06. The uncertainties of these determinations will substantially improve upon completion of an ongoing campaign to estimate dynamical, weak lensing, and X-ray cluster masses in the SDSS maxBCG cluster sample., Comment: 10 pages, 6 figures, ApJ Submitted

Published

2007

41. Optically-Selected Cluster Catalogs as a Precision Cosmology Tool

Author

Rozo, Eduardo, Wechsler, Risa H., Koester, Benjamin P., Evrard, August E., McKay, Timothy A., Rozo, Eduardo, Wechsler, Risa H., Koester, Benjamin P., Evrard, August E., and McKay, Timothy A.

Abstract

We introduce a framework for describing the halo selection function of optical cluster finders. We treat the problem as being separable into a term that describes the intrinsic galaxy content of a halo (the Halo Occupation Distribution, or HOD) and a term that captures the effects of projection and selection by the particular cluster finding algorithm. Using mock galaxy catalogs tuned to reproduce the luminosity dependent correlation function and the empirical color-density relation measured in the SDSS, we characterize the maxBCG algorithm applied by Koester et al. to the SDSS galaxy catalog. We define and calibrate measures of completeness and purity for this algorithm, and demonstrate successful recovery of the underlying cosmology and HOD when applied to the mock catalogs. We identify principal components -- combinations of cosmology and HOD parameters -- that are recovered by survey counts as a function of richness, and demonstrate that percent-level accuracies are possible in the first two components, if the selection function can be understood to ~15% accuracy., Comment: 19 pages, 13 figures, ApJ submitted

Published

2007

42. MaxBCG: A Red Sequence Galaxy Cluster Finder

Author

Koester, Benjamin P., McKay, Timothy A., Annis, James, Wechsler, Risa H., Evrard, August E., Rozo, Eduardo, Bleem, Lindsey, Sheldon, Erin S., Johnston, David, Koester, Benjamin P., McKay, Timothy A., Annis, James, Wechsler, Risa H., Evrard, August E., Rozo, Eduardo, Bleem, Lindsey, Sheldon, Erin S., and Johnston, David

Abstract

Measurements of galaxy cluster abundances, clustering properties, and mass to- light ratios in current and future surveys can provide important cosmological constraints. Digital wide-field imaging surveys, the recently-demonstrated fidelity of red-sequence cluster detection techniques, and a new generation of realistic mock galaxy surveys provide the means for construction of large, cosmologicallyinteresting cluster samples, whose selection and properties can be understood in unprecedented depth. We present the details of the "maxBCG" algorithm, a cluster-detection technique tailored to multi-band CCD-imaging data. MaxBCG primarily relies on an observational cornerstone of massive galaxy clusters: they are marked by an overdensity of bright, uniformly red galaxies. This detection scheme also exploits classical brightest cluster galaxies (BCGs), which are often found at the center of these same massive clusters. (ABRIDGED), Comment: 39 pages, 16 figures, 1 table. Accepted to ApJ

Published

2007

43. The Dust Content of Galaxy Clusters

Author

Chelouche, Doron, Koester, Benjamin P., Bowen, David V., Chelouche, Doron, Koester, Benjamin P., and Bowen, David V.

Abstract

We report on the detection of reddening toward z ~ 0.2 galaxy clusters. This is measured by correlating the Sloan Digital Sky Survey cluster and quasar catalogs and by comparing the photometric and spectroscopic properties of quasars behind the clusters to those in the field. We find mean E(B-V) values of a few times 10^-3 mag for sight lines passing ~Mpc from the clusters' center. The reddening curve is typical of dust but cannot be used to distinguish between different dust types. The radial dependence of the extinction is shallow near the cluster center suggesting that most of the detected dust lies at the outskirts of the clusters. Gravitational magnification of background z ~ 1.7 sources seen on Mpc (projected) scales around the clusters is found to be of order a few per cent, in qualitative agreement with theoretical predictions. Contamination by different spectral properties of the lensed quasar population is unlikely but cannot be excluded., Comment: 4 pages, 3 figures

Published

2007

44. Cross-correlation Weak Lensing of SDSS galaxy Clusters II: Cluster Density Profiles and the Mass--Richness Relation

Author

Johnston, David E., Sheldon, Erin S., Wechsler, Risa H., Rozo, Eduardo, Koester, Benjamin P., Frieman, Joshua A., McKay, Timothy A., Evrard, August E., Becker, Matthew R., Annis, James, Johnston, David E., Sheldon, Erin S., Wechsler, Risa H., Rozo, Eduardo, Koester, Benjamin P., Frieman, Joshua A., McKay, Timothy A., Evrard, August E., Becker, Matthew R., and Annis, James

Abstract

We interpret and model the statistical weak lensing measurements around 130,000 groups and clusters of galaxies in the Sloan Digital Sky Survey presented by Sheldon et al. 2007 (Paper I). We present non-parametric inversions of the 2D shear profiles to the mean 3D cluster density and mass profiles in bins of both optical richness and cluster i-band luminosity. We correct the inferred 3D profiles for systematic effects, including non-linear shear and the fact that cluster halos are not all precisely centered on their brightest galaxies. We also model the measured cluster shear profile as a sum of contributions from the brightest central galaxy, the cluster dark matter halo, and neighboring halos. We infer the relations between mean cluster virial mass and optical richness and luminosity over two orders of magnitude in cluster mass; the virial mass at fixed richness or luminosity is determined with a precision of 13% including both statistical and systematic errors. We also constrain the halo concentration parameter and halo bias as a function of cluster mass; both are in good agreement with predictions of LCDM models. The methods employed here will be applicable to deeper, wide-area optical surveys that aim to constrain the nature of the dark energy, such as the Dark Energy Survey, the Large Synoptic Survey Telescope and space-based surveys.

Published

2007

45. The Galaxy Content of SDSS Clusters and Groups

Author

Hansen, Sarah M., Sheldon, Erin S., Wechsler, Risa H., Koester, Benjamin P., Hansen, Sarah M., Sheldon, Erin S., Wechsler, Risa H., and Koester, Benjamin P.

Abstract

Imaging data from the Sloan Digital Sky Survey are used to characterize the population of galaxies in groups and clusters detected with the MaxBCG algorithm. We investigate the dependence of Brightest Cluster Galaxy (BCG) luminosity, and the distributions of satellite galaxy luminosity and satellite color, on cluster properties over the redshift range 0.1 < z < 0.3. The size of the dataset allows us to make measurements in many bins of cluster richness, radius and redshift. We find that, within r_200 of clusters with mass above 3e13 h-1 M_sun, the luminosity function of both red and blue satellites is only weakly dependent on richness. We further find that the shape of the satellite luminosity function does not depend on cluster-centric distance for magnitudes brighter than ^{0.25}M_i - 5log(h) < -19. However, the mix of faint red and blue galaxies changes dramatically. The satellite red fraction is dependent on cluster-centric distance, galaxy luminosity and cluster mass, and also increases by ~5% between redshifts 0.28 and 0.2, independent of richness. We find that BCG luminosity is tightly correlated with cluster richness, scaling as L_{BCG} ~ M_{200}^{0.3}, and has a Gaussian distribution at fixed richness, with sigma_{log L} ~ 0.17 for massive clusters. The ratios of BCG luminosity to total cluster luminosity and characteristic satellite luminosity scale strongly with cluster richness: in richer systems, BCGs contribute a smaller fraction of the total light, but are brighter compared to typical satellites. This study demonstrates the power of cross-correlation techniques for measuring galaxy populations in purely photometric data., Comment: 22 pages, 14 figures, submitted to ApJ

Published

2007

46. The Dust Content of Galaxy Clusters

Author

Chelouche, Doron, Koester, Benjamin P., Bowen, David V., Chelouche, Doron, Koester, Benjamin P., and Bowen, David V.

Abstract

We report on the detection of reddening toward z ~ 0.2 galaxy clusters. This is measured by correlating the Sloan Digital Sky Survey cluster and quasar catalogs and by comparing the photometric and spectroscopic properties of quasars behind the clusters to those in the field. We find mean E(B-V) values of a few times 10^-3 mag for sight lines passing ~Mpc from the clusters' center. The reddening curve is typical of dust but cannot be used to distinguish between different dust types. The radial dependence of the extinction is shallow near the cluster center suggesting that most of the detected dust lies at the outskirts of the clusters. Gravitational magnification of background z ~ 1.7 sources seen on Mpc (projected) scales around the clusters is found to be of order a few per cent, in qualitative agreement with theoretical predictions. Contamination by different spectral properties of the lensed quasar population is unlikely but cannot be excluded., Comment: 4 pages, 3 figures

Published

2007

47. The Galaxy Content of SDSS Clusters and Groups

Author

Hansen, Sarah M., Sheldon, Erin S., Wechsler, Risa H., Koester, Benjamin P., Hansen, Sarah M., Sheldon, Erin S., Wechsler, Risa H., and Koester, Benjamin P.

Abstract

Imaging data from the Sloan Digital Sky Survey are used to characterize the population of galaxies in groups and clusters detected with the MaxBCG algorithm. We investigate the dependence of Brightest Cluster Galaxy (BCG) luminosity, and the distributions of satellite galaxy luminosity and satellite color, on cluster properties over the redshift range 0.1 < z < 0.3. The size of the dataset allows us to make measurements in many bins of cluster richness, radius and redshift. We find that, within r_200 of clusters with mass above 3e13 h-1 M_sun, the luminosity function of both red and blue satellites is only weakly dependent on richness. We further find that the shape of the satellite luminosity function does not depend on cluster-centric distance for magnitudes brighter than ^{0.25}M_i - 5log(h) < -19. However, the mix of faint red and blue galaxies changes dramatically. The satellite red fraction is dependent on cluster-centric distance, galaxy luminosity and cluster mass, and also increases by ~5% between redshifts 0.28 and 0.2, independent of richness. We find that BCG luminosity is tightly correlated with cluster richness, scaling as L_{BCG} ~ M_{200}^{0.3}, and has a Gaussian distribution at fixed richness, with sigma_{log L} ~ 0.17 for massive clusters. The ratios of BCG luminosity to total cluster luminosity and characteristic satellite luminosity scale strongly with cluster richness: in richer systems, BCGs contribute a smaller fraction of the total light, but are brighter compared to typical satellites. This study demonstrates the power of cross-correlation techniques for measuring galaxy populations in purely photometric data., Comment: 22 pages, 14 figures, submitted to ApJ

Published

2007

48. Cross-correlation Weak Lensing of SDSS galaxy Clusters II: Cluster Density Profiles and the Mass--Richness Relation

Author

Johnston, David E., Sheldon, Erin S., Wechsler, Risa H., Rozo, Eduardo, Koester, Benjamin P., Frieman, Joshua A., McKay, Timothy A., Evrard, August E., Becker, Matthew R., Annis, James, Johnston, David E., Sheldon, Erin S., Wechsler, Risa H., Rozo, Eduardo, Koester, Benjamin P., Frieman, Joshua A., McKay, Timothy A., Evrard, August E., Becker, Matthew R., and Annis, James

Abstract

We interpret and model the statistical weak lensing measurements around 130,000 groups and clusters of galaxies in the Sloan Digital Sky Survey presented by Sheldon et al. 2007 (Paper I). We present non-parametric inversions of the 2D shear profiles to the mean 3D cluster density and mass profiles in bins of both optical richness and cluster i-band luminosity. We correct the inferred 3D profiles for systematic effects, including non-linear shear and the fact that cluster halos are not all precisely centered on their brightest galaxies. We also model the measured cluster shear profile as a sum of contributions from the brightest central galaxy, the cluster dark matter halo, and neighboring halos. We infer the relations between mean cluster virial mass and optical richness and luminosity over two orders of magnitude in cluster mass; the virial mass at fixed richness or luminosity is determined with a precision of 13% including both statistical and systematic errors. We also constrain the halo concentration parameter and halo bias as a function of cluster mass; both are in good agreement with predictions of LCDM models. The methods employed here will be applicable to deeper, wide-area optical surveys that aim to constrain the nature of the dark energy, such as the Dark Energy Survey, the Large Synoptic Survey Telescope and space-based surveys.

Published

2007

49. The Dust Content of Galaxy Clusters

Author

Chelouche, Doron, Koester, Benjamin P., Bowen, David V., Chelouche, Doron, Koester, Benjamin P., and Bowen, David V.

Abstract

We report on the detection of reddening toward z ~ 0.2 galaxy clusters. This is measured by correlating the Sloan Digital Sky Survey cluster and quasar catalogs and by comparing the photometric and spectroscopic properties of quasars behind the clusters to those in the field. We find mean E(B-V) values of a few times 10^-3 mag for sight lines passing ~Mpc from the clusters' center. The reddening curve is typical of dust but cannot be used to distinguish between different dust types. The radial dependence of the extinction is shallow near the cluster center suggesting that most of the detected dust lies at the outskirts of the clusters. Gravitational magnification of background z ~ 1.7 sources seen on Mpc (projected) scales around the clusters is found to be of order a few per cent, in qualitative agreement with theoretical predictions. Contamination by different spectral properties of the lensed quasar population is unlikely but cannot be excluded., Comment: 4 pages, 3 figures

Published

2007

50. The Galaxy Content of SDSS Clusters and Groups

Author

Hansen, Sarah M., Sheldon, Erin S., Wechsler, Risa H., Koester, Benjamin P., Hansen, Sarah M., Sheldon, Erin S., Wechsler, Risa H., and Koester, Benjamin P.

Abstract

Imaging data from the Sloan Digital Sky Survey are used to characterize the population of galaxies in groups and clusters detected with the MaxBCG algorithm. We investigate the dependence of Brightest Cluster Galaxy (BCG) luminosity, and the distributions of satellite galaxy luminosity and satellite color, on cluster properties over the redshift range 0.1 < z < 0.3. The size of the dataset allows us to make measurements in many bins of cluster richness, radius and redshift. We find that, within r_200 of clusters with mass above 3e13 h-1 M_sun, the luminosity function of both red and blue satellites is only weakly dependent on richness. We further find that the shape of the satellite luminosity function does not depend on cluster-centric distance for magnitudes brighter than ^{0.25}M_i - 5log(h) < -19. However, the mix of faint red and blue galaxies changes dramatically. The satellite red fraction is dependent on cluster-centric distance, galaxy luminosity and cluster mass, and also increases by ~5% between redshifts 0.28 and 0.2, independent of richness. We find that BCG luminosity is tightly correlated with cluster richness, scaling as L_{BCG} ~ M_{200}^{0.3}, and has a Gaussian distribution at fixed richness, with sigma_{log L} ~ 0.17 for massive clusters. The ratios of BCG luminosity to total cluster luminosity and characteristic satellite luminosity scale strongly with cluster richness: in richer systems, BCGs contribute a smaller fraction of the total light, but are brighter compared to typical satellites. This study demonstrates the power of cross-correlation techniques for measuring galaxy populations in purely photometric data., Comment: 22 pages, 14 figures, submitted to ApJ

Published

2007