Your search keyword '"Schrabback, Tim"' showing total 160 results

151. Scientific synergy between LSST and Euclid

Author

Rhodes, Jason, Nichol, Robert C., Aubourg, Éric, Bean, Rachel, Boutigny, Dominique, Bremer, Malcolm N., Capak, Peter, Cardone, Vincenzo, Carry, Benoît, Conselice, Christopher J., Connolly, Andrew J., Cuillandre, Jean-Charles, Hatch, N. A., Helou, George, Hemmati, Shoubaneh, Hildebrandt, Hendrik, Hložek, Renée, Jones, Lynne, Kahn, Steven, Kiessling, Alina, Kitching, Thomas, Lupton, Robert, Mandelbaum, Rachel, Markovic, Katarina, Marshall, Phil, Massey, Richard, Maughan, Ben J., Melchior, Peter, Mellier, Yannick, Newman, Jeffrey A., Robertson, Brant, Sauvage, Marc, Schrabback, Tim, Smith, Graham P., Strauss, Michael A., Taylor, Andy, Linden, Anja Von Der, Rhodes, Jason, Nichol, Robert C., Aubourg, Éric, Bean, Rachel, Boutigny, Dominique, Bremer, Malcolm N., Capak, Peter, Cardone, Vincenzo, Carry, Benoît, Conselice, Christopher J., Connolly, Andrew J., Cuillandre, Jean-Charles, Hatch, N. A., Helou, George, Hemmati, Shoubaneh, Hildebrandt, Hendrik, Hložek, Renée, Jones, Lynne, Kahn, Steven, Kiessling, Alina, Kitching, Thomas, Lupton, Robert, Mandelbaum, Rachel, Markovic, Katarina, Marshall, Phil, Massey, Richard, Maughan, Ben J., Melchior, Peter, Mellier, Yannick, Newman, Jeffrey A., Robertson, Brant, Sauvage, Marc, Schrabback, Tim, Smith, Graham P., Strauss, Michael A., Taylor, Andy, and Linden, Anja Von Der

Abstract

Euclid and the Large Synoptic Survey Telescope (LSST) are poised to dramatically change the astronomy landscape early in the next decade. The combination of high-cadence, deep, wide-field optical photometry from LSST with high-resolution, wide-field optical photometry, and near-infrared photometry and spectroscopy from Euclid will be powerful for addressing a wide range of astrophysical questions. We explore Euclid/LSST synergy, ignoring the political issues associated with data access to focus on the scientific, technical, and financial benefits of coordination. We focus primarily on dark energy cosmology, but also discuss galaxy evolution, transient objects, solar system science, and galaxy cluster studies. We concentrate on synergies that require coordination in cadence or survey overlap, or would benefit from pixel-level co-processing that is beyond the scope of what is currently planned, rather than scientific programs that could be accomplished only at the catalog level without coordination in data processing or survey strategies. We provide two quantitative examples of scientific synergies: the decrease in photo-z errors (benefiting many science cases) when high-resolution Euclid data are used for LSST photo-z determination, and the resulting increase in weak-lensing signal-to-noise ratio from smaller photo-z errors. We brie fly discuss other areas of coordination, including high-performance computing resources and calibration data. Finally, we address concerns about the loss of independence and potential cross-checks between the two missions and the potential consequences of not collaborating.

152. The effect of the environment on the structure, morphology and star-formation history of intermediate-redshift galaxies

Author

Kelkar, Kshitija, Gray, Meghan E., Aragón-Salamanca, Alfonso, Rudnick, Gregory, Milvang-Jensen, Bo, Jablonka, Pascale, Schrabback, Tim, Kelkar, Kshitija, Gray, Meghan E., Aragón-Salamanca, Alfonso, Rudnick, Gregory, Milvang-Jensen, Bo, Jablonka, Pascale, and Schrabback, Tim

Abstract

With the aim of understanding the effect of the environment on the star formation history and morphological transformation of galaxies, we present a detailed analysis of the colour, morphology and internal structure of cluster and field galaxies at 0.4≤z≤0.8. We use {\em HST} data for over 500 galaxies from the ESO Distant Cluster Survey (EDisCS) to quantify how the galaxies' light distribution deviate from symmetric smooth profiles. We visually inspect the galaxies' images to identify the likely causes for such deviations. We find that the residual flux fraction (RFF), which measures the fractional contribution to the galaxy light of the residuals left after subtracting a symmetric and smooth model, is very sensitive to the degree of structural disturbance but not the causes of such disturbance. On the other hand, the asymmetry of these residuals (Ares) is more sensitive to the causes of the disturbance, with merging galaxies having the highest values of Ares. Using these quantitative parameters we find that, at a fixed morphology, cluster and field galaxies show statistically similar degrees of disturbance. However, there is a higher fraction of symmetric and passive spirals in the cluster than in the field. These galaxies have smoother light distributions than their star-forming counterparts. We also find that while almost all field and cluster S0s appear undisturbed, there is a relatively small population of star-forming S0s in clusters but not in the field. These findings are consistent with relatively gentle environmental processes acting on galaxies infalling onto clusters.

153. Scientific synergy between LSST and Euclid

Author

Rhodes, Jason, Nichol, Robert C., Aubourg, Éric, Bean, Rachel, Boutigny, Dominique, Bremer, Malcolm N., Capak, Peter, Cardone, Vincenzo, Carry, Benoît, Conselice, Christopher J., Connolly, Andrew J., Cuillandre, Jean-Charles, Hatch, N. A., Helou, George, Hemmati, Shoubaneh, Hildebrandt, Hendrik, Hložek, Renée, Jones, Lynne, Kahn, Steven, Kiessling, Alina, Kitching, Thomas, Lupton, Robert, Mandelbaum, Rachel, Markovic, Katarina, Marshall, Phil, Massey, Richard, Maughan, Ben J., Melchior, Peter, Mellier, Yannick, Newman, Jeffrey A., Robertson, Brant, Sauvage, Marc, Schrabback, Tim, Smith, Graham P., Strauss, Michael A., Taylor, Andy, Linden, Anja Von Der, Rhodes, Jason, Nichol, Robert C., Aubourg, Éric, Bean, Rachel, Boutigny, Dominique, Bremer, Malcolm N., Capak, Peter, Cardone, Vincenzo, Carry, Benoît, Conselice, Christopher J., Connolly, Andrew J., Cuillandre, Jean-Charles, Hatch, N. A., Helou, George, Hemmati, Shoubaneh, Hildebrandt, Hendrik, Hložek, Renée, Jones, Lynne, Kahn, Steven, Kiessling, Alina, Kitching, Thomas, Lupton, Robert, Mandelbaum, Rachel, Markovic, Katarina, Marshall, Phil, Massey, Richard, Maughan, Ben J., Melchior, Peter, Mellier, Yannick, Newman, Jeffrey A., Robertson, Brant, Sauvage, Marc, Schrabback, Tim, Smith, Graham P., Strauss, Michael A., Taylor, Andy, and Linden, Anja Von Der

Abstract

Euclid and the Large Synoptic Survey Telescope (LSST) are poised to dramatically change the astronomy landscape early in the next decade. The combination of high-cadence, deep, wide-field optical photometry from LSST with high-resolution, wide-field optical photometry, and near-infrared photometry and spectroscopy from Euclid will be powerful for addressing a wide range of astrophysical questions. We explore Euclid/LSST synergy, ignoring the political issues associated with data access to focus on the scientific, technical, and financial benefits of coordination. We focus primarily on dark energy cosmology, but also discuss galaxy evolution, transient objects, solar system science, and galaxy cluster studies. We concentrate on synergies that require coordination in cadence or survey overlap, or would benefit from pixel-level co-processing that is beyond the scope of what is currently planned, rather than scientific programs that could be accomplished only at the catalog level without coordination in data processing or survey strategies. We provide two quantitative examples of scientific synergies: the decrease in photo-z errors (benefiting many science cases) when high-resolution Euclid data are used for LSST photo-z determination, and the resulting increase in weak-lensing signal-to-noise ratio from smaller photo-z errors. We brie fly discuss other areas of coordination, including high-performance computing resources and calibration data. Finally, we address concerns about the loss of independence and potential cross-checks between the two missions and the potential consequences of not collaborating.

154. The effect of the environment on the structure, morphology and star-formation history of intermediate-redshift galaxies

Author

Kelkar, Kshitija, Gray, Meghan E., Aragón-Salamanca, Alfonso, Rudnick, Gregory, Milvang-Jensen, Bo, Jablonka, Pascale, Schrabback, Tim, Kelkar, Kshitija, Gray, Meghan E., Aragón-Salamanca, Alfonso, Rudnick, Gregory, Milvang-Jensen, Bo, Jablonka, Pascale, and Schrabback, Tim

Abstract

With the aim of understanding the effect of the environment on the star formation history and morphological transformation of galaxies, we present a detailed analysis of the colour, morphology and internal structure of cluster and field galaxies at 0.4≤z≤0.8. We use {\em HST} data for over 500 galaxies from the ESO Distant Cluster Survey (EDisCS) to quantify how the galaxies' light distribution deviate from symmetric smooth profiles. We visually inspect the galaxies' images to identify the likely causes for such deviations. We find that the residual flux fraction (RFF), which measures the fractional contribution to the galaxy light of the residuals left after subtracting a symmetric and smooth model, is very sensitive to the degree of structural disturbance but not the causes of such disturbance. On the other hand, the asymmetry of these residuals (Ares) is more sensitive to the causes of the disturbance, with merging galaxies having the highest values of Ares. Using these quantitative parameters we find that, at a fixed morphology, cluster and field galaxies show statistically similar degrees of disturbance. However, there is a higher fraction of symmetric and passive spirals in the cluster than in the field. These galaxies have smoother light distributions than their star-forming counterparts. We also find that while almost all field and cluster S0s appear undisturbed, there is a relatively small population of star-forming S0s in clusters but not in the field. These findings are consistent with relatively gentle environmental processes acting on galaxies infalling onto clusters.

155. Results of the GREAT08 Challenge: an image analysis competition for cosmological lensing

Author

Bridle, Sarah, Balan, Sreekumar T., Bethge, Matthias, Gentile, Marc, Harmeling, Stefan, Heymans, Catherine, Hirsch, Michael, Hosseini, Reshad, Jarvis, Mike, Kirk, Donnacha, Kitching, Thomas, Kuijken, Konrad, Lewis, Antony, Paulin-Henriksson, Stephane, Schölkopf, Bernhard, Velander, Malin, Voigt, Lisa, Witherick, Dugan, Amara, Adam, Bernstein, Gary, Courbin, Frédéric, Gill, Mandeep, Heavens, Alan, Mandelbaum, Rachel, Massey, Richard, Moghaddam, Baback, Rassat, Anais, Réfrégier, Alexandre, Rhodes, Jason, Schrabback, Tim, Shawe-Taylor, John, Shmakova, Marina, van Waerbeke, Ludovic, Wittman, David, Bridle, Sarah, Balan, Sreekumar T., Bethge, Matthias, Gentile, Marc, Harmeling, Stefan, Heymans, Catherine, Hirsch, Michael, Hosseini, Reshad, Jarvis, Mike, Kirk, Donnacha, Kitching, Thomas, Kuijken, Konrad, Lewis, Antony, Paulin-Henriksson, Stephane, Schölkopf, Bernhard, Velander, Malin, Voigt, Lisa, Witherick, Dugan, Amara, Adam, Bernstein, Gary, Courbin, Frédéric, Gill, Mandeep, Heavens, Alan, Mandelbaum, Rachel, Massey, Richard, Moghaddam, Baback, Rassat, Anais, Réfrégier, Alexandre, Rhodes, Jason, Schrabback, Tim, Shawe-Taylor, John, Shmakova, Marina, van Waerbeke, Ludovic, and Wittman, David

Abstract

We present the results of the Gravitational LEnsing Accuracy Testing 2008 (GREAT08) Challenge, a blind analysis challenge to infer weak gravitational lensing shear distortions from images. The primary goal was to stimulate new ideas by presenting the problem to researchers outside the shear measurement community. Six GREAT08 Team methods were presented at the launch of the Challenge and five additional groups submitted results during the 6-month competition. Participants analyzed 30 million simulated galaxies with a range in signal-to-noise ratio, point spread function ellipticity, galaxy size and galaxy type. The large quantity of simulations allowed shear measurement methods to be assessed at a level of accuracy suitable for currently planned future cosmic shear observations for the first time. Different methods perform well in different parts of simulation parameter space and come close to the target level of accuracy in several of these. A number of fresh ideas have emerged as a result of the Challenge including a re-examination of the process of combining information from different galaxies, which reduces the dependence on realistic galaxy modelling. The image simulations will become increasingly sophisticated in future GREAT Challenges, meanwhile the GREAT08 simulations remain as a benchmark for additional developments in shear measurement algorithms

156. CFHTLenS: co-evolution of galaxies and their dark matter haloes

Author

Hudson, Michael J., Gillis, Bryan R., Coupon, Jean, Hildebrandt, Hendrik, Erben, Thomas, Heymans, Catherine, Hoekstra, Henk, Kitching, Thomas D., Mellier, Yannick, Miller, Lance, Van Waerbeke, Ludovic, Bonnett, Christopher, Fu, Liping, Kuijken, Konrad, Rowe, Barnaby, Schrabback, Tim, Semboloni, Elisabetta, van Uitert, Edo, Velander, Malin, Hudson, Michael J., Gillis, Bryan R., Coupon, Jean, Hildebrandt, Hendrik, Erben, Thomas, Heymans, Catherine, Hoekstra, Henk, Kitching, Thomas D., Mellier, Yannick, Miller, Lance, Van Waerbeke, Ludovic, Bonnett, Christopher, Fu, Liping, Kuijken, Konrad, Rowe, Barnaby, Schrabback, Tim, Semboloni, Elisabetta, van Uitert, Edo, and Velander, Malin

Abstract

Galaxy-galaxy weak lensing is a direct probe of the mean matter distribution around galaxies. The depth and sky coverage of the Canada-France-Hawaii Telescope Legacy Survey yield statistically significant galaxy halo mass measurements over a much wider range of stellar masses (108.75 to 1011.3 M⊙) and redshifts (0.2

157. CFHTLenS: weak lensing constraints on the ellipticity of galaxy-scale matter haloes and the galaxy-halo misalignment

Author

Schrabback, Tim, Hilbert, Stefan, Hoekstra, Henk, Simon, Patrick, van Uitert, Edo, Erben, Thomas, Heymans, Catherine, Hildebrandt, Hendrik, Kitching, Thomas D., Mellier, Yannick, Miller, Lance, Van Waerbeke, Ludovic, Bett, Philip, Coupon, Jean, Fu, Liping, Hudson, Michael J., Joachimi, Benjamin, Kilbinger, Martin, Kuijken, Konrad, Schrabback, Tim, Hilbert, Stefan, Hoekstra, Henk, Simon, Patrick, van Uitert, Edo, Erben, Thomas, Heymans, Catherine, Hildebrandt, Hendrik, Kitching, Thomas D., Mellier, Yannick, Miller, Lance, Van Waerbeke, Ludovic, Bett, Philip, Coupon, Jean, Fu, Liping, Hudson, Michael J., Joachimi, Benjamin, Kilbinger, Martin, and Kuijken, Konrad

Abstract

We present weak lensing constraints on the ellipticity of galaxy-scale matter haloes and the galaxy-halo misalignment. Using data from the Canada-France-Hawaii Telescope Lensing Survey (CFHTLenS), we measure the weighted-average ratio of the aligned projected ellipticity components of galaxy matter haloes and their embedded galaxies, fh, split by galaxy type. We then compare our observations to measurements taken from the Millennium Simulation, assuming different models of galaxy-halo misalignment. Using the Millennium Simulation, we verify that the statistical estimator used removes contamination from cosmic shear. We also detect an additional signal in the simulation, which we interpret as the impact of intrinsic shape-shear alignments between the lenses and their large-scale structure environment. These alignments are likely to have caused some of the previous observational constraints on fh to be biased high. From CFHTLenS, we find fh=−0.04±0.25 for early-type galaxies, which is consistent with current models for the galaxy-halo misalignment predicting fh ≃ 0.20. For late-type galaxies we measure $f_\mathrm{h}=0.69_{-0.36}^{+0.37}$ from CFHTLenS. This can be compared to the simulated results which yield fh ≃ 0.02 for misaligned late-type models

158. The eROSITA Final Equatorial-Depth Survey (eFEDS)

Author

Ghirardini, Vittorio, Emre Bahar, Y., Bulbul, Esra, Liu, Ang, Clerc, Nicolas, Pacaud, Florian, Comparat, Johan, Liu, Teng, Ramos-Ceja, Miriam E., Hoang, Duy, Ider-Chitham, Jacob, Klein, Matthias, Merloni, Andrea, Nandra, Kirpal, Ota, Naomi, Predehl, Peter, Reiprich, Thomas H., Sanders, Jeremy, and Schrabback, Tim

159. Origins of weak lensing systematics, and requirements on future instrumentation (or knowledge of instrumentation)

Author

Schrabback, Tim [Stanford Univ., Stanford, CA (United States); Argelander-Institut fur Astronomie, Bonn (Germany)]

Published

2012

160. X-Ray Properties of SPT-selected Galaxy Clusters at 0.2 < z < 1.5 Observed with XMM-Newton

Author

Matthias Klein, Bill Forman, W. L. Holzapfel, Tim Schrabback, B. Stalder, Sebastian Bocquet, Mark W. Bautz, Mark Brodwin, Christian L. Reichardt, Eric D. Miller, Michael McDonald, Matthew B. Bayliss, A. Saro, Lindsey Bleem, R. Capasso, G. Khullar, Joseph J. Mohr, Ralph P. Kraft, I-Non Chiu, Keren Sharon, Esra Bulbul, Julie Hlavacek-Larrondo, J. P. Dietrich, Adam Stanford, Bradford Benson, Bulbul, Esra, Chiu, I. -Non, Mohr, Joseph J., Mcdonald, Michael, Benson, Bradford, Bautz, Mark W., Bayliss, Matthew, Bleem, Lindsey, Brodwin, Mark, Bocquet, Sebastian, Capasso, Raffaella, Dietrich, Jörg P., Forman, Bill, Hlavacek-Larrondo, Julie, Holzapfel, W. L., Khullar, Gourav, Klein, Matthia, Kraft, Ralph, Miller, Eric D., Reichardt, Christian, Saro, Alex, Sharon, Keren, Stalder, Brian, Schrabback, Tim, and Stanford, Adam

Subjects

large-scale structure of universe, Physics, X-rays: galaxies: clusters, Astrophysics - Cosmology and Nongalactic Astrophysics, 010504 meteorology & atmospheric sciences, Astrophysics::High Energy Astrophysical Phenomena, Halo mass function, Astronomy and Astrophysics, Observable, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, 01 natural sciences, Redshift, galaxies: cluster [X-rays], Luminosity, South Pole Telescope, Space and Planetary Science, 0103 physical sciences, Halo, 010303 astronomy & astrophysics, Scaling, Astrophysics::Galaxy Astrophysics, Galaxy cluster, 0105 earth and related environmental sciences

Abstract

We present measurements of the X-ray observables of the intra-cluster medium (ICM), including luminosity $L_X$, ICM mass $M_{ICM}$, emission-weighted mean temperature $T_X$, and integrated pressure $Y_X$, that are derived from XMM-Newton X-ray observations of a Sunyaev-Zel'dovich Effect (SZE) selected sample of 59 galaxy clusters from the South Pole Telescope SPT-SZ survey that span the redshift range of $0.20 < z < 1.5$. We constrain the best-fit power law scaling relations between X-ray observables, redshift, and halo mass. The halo masses are estimated based on previously published SZE observable to mass scaling relations, calibrated using information that includes the halo mass function. Employing SZE-based masses in this sample enables us to constrain these scaling relations for massive galaxy clusters ($M_{500}\geq 3 \times10^{14}$ $M_\odot$) to the highest redshifts where these clusters exist without concern for X-ray selection biases. We find that the mass trends are steeper than self-similarity in all cases, and with $\geq 2.5{\sigma}$ significance in the case of $L_X$ and $M_{ICM}$. The redshift trends are consistent with the self-similar expectation, but the uncertainties remain large. Core-included scaling relations tend to have steeper mass trends for $L_X$. There is no convincing evidence for a redshift-dependent mass trend in any observable. The constraints on the amplitudes of the fitted scaling relations are currently limited by the systematic uncertainties on the SZE-based halo masses, however the redshift and mass trends are limited by the X-ray sample size and the measurement uncertainties of the X-ray observables., Comment: Accepted for publication in ApJ. 29 pages, 11 figures, 5 tables

Published

2019