Your search keyword '"Norman Grogin"' showing total 5 results

1. SKYSURF: Constraints on Zodiacal Light and Extragalactic Background Light through Panchromatic HST All-sky Surface-brightness Measurements: II. First Limits on Diffuse Light at 1.25, 1.4, and 1.6 μm

Author

Timothy Carleton, Rogier A Windhorst, Rosalia O’Brien, Seth H Cohen, Delondrae Carter, Rolf Jansen, Scott Tompkins, Richard G Arendt, Sarah Caddy, Norman Grogin, Scott J Kenyon, Anton Koekemoer, John MacKenty, Stefano Casertano, Luke J M Davies, Simon P Driver, Eliahu Dwek, Alexander Kashlinsky, Nathan Miles, Nor Pirzkal, Aaron Robotham, Russell Ryan, Haley Abate, Hanga Andras-Letanovszky, Jessica Berkheimer, Zak Goisman, Daniel Henningsen, Darby Kramer, Ci’mone Rogers, and Andi Swirbul

Subjects

Astrophysics

Abstract

We present the first results from the HST Archival Legacy project "SKYSURF." As described in Windhorst et al., SKYSURF utilizes the large HST archive to study the diffuse UV, optical, and near-IR backgrounds and foregrounds in detail. Here, we utilize SKYSURF's first sky-surface-brightness measurements to constrain the level of near-IR diffuse Extragalactic Background Light (EBL) in three near-IR filters (F125W, F140W, and F160W). This is done by comparing our preliminary sky measurements of >30,000 images to zodiacal light models, carefully selecting the darkest images to avoid contamination from stray light. Our sky-surface-brightness measurements have been verified to an accuracy of better than 1%, which when combined with systematic errors associated with HST, results in sky-brightness uncertainties of ∼ 2%–4% ≃ 0.005 MJy sr−1 in each image. When compared to the Kelsall et al. zodiacal model, an isotropic diffuse background of ∼30 nW m−2 sr−1 remains, whereas using the Wright zodiacal model results in no discernible diffuse background. Based primarily on uncertainties in the foreground model subtraction, we present limits on the amount of diffuse EBL of 29, 40, and 29 nW m−2 sr−1, for F125W, F140W, and F160W, respectively. While this light is generally isotropic, our modeling at this point does not distinguish between a cosmological origin or a solar system origin (such as a dim, diffuse, spherical cloud of cometary dust).

Published

2022

2. SKYSURF: Constraints on Zodiacal Light and Extragalactic Background Light through Panchromatic HST All-sky Surface-brightness Measurements. I. Survey Overview and Methods

Author

Rogier A. Windhorst, Timothy Carleton, Rosalia O’Brien, Seth H. Cohen, Delondrae Carter, Rolf Jansen, Scott Tompkins, Richard G. Arendt, Sarah Caddy, Norman Grogin, Anton Koekemoer, John MacKenty, Stefano Casertano, Luke J. M. Davies, Simon P. Driver, Eli Dwek, Alexander Kashlinsky, Scott J. Kenyon, Nathan Miles, Nor Pirzkal, Aaron Robotham, Russell Ryan, Haley Abate, Hanga Andras-Letanovszky, Jessica Berkheimer, John Chambers, Connor Gelb, Zak Goisman, Daniel Henningsen, Isabela Huckabee, Darby Kramer, Teerthal Patel, Rushabh Pawnikar, Ewan Pringle, Ci’mone Rogers, Steven Sherman, Andi Swirbul, and Kaitlin Webber

Subjects

Astronomy, Instrumentation and Photography

Abstract

We give an overview and describe the rationale, methods, and testing of the Hubble Space Telescope (HST) Archival Legacy project "SKYSURF." SKYSURF uses HST's unique capability as an absolute photometer to measure the ∼0.2–1.7 μm sky-surface brightness (sky-SB) from 249,861 WFPC2, ACS, and WFC3 exposures in ∼1400 independent HST fields. SKYSURF's panchromatic data set is designed to constrain the discrete and diffuse UV to near-IR sky components: Zodiacal Light (ZL), Kuiper Belt Objects (KBOs), Diffuse Galactic Light (DGL), and the discrete plus diffuse Extragalactic Background Light (EBL). We outline SKYSURF's methods to: (1) measure sky-SB levels between detected objects; (2) measure the discrete EBL, most of which comes from AB≃17–22 mag galaxies; and (3) estimate how much truly diffuse light may exist. Simulations of HST WFC3/IR images with known sky values and gradients, realistic cosmic ray (CR) distributions, and star plus galaxy counts were processed with nine different algorithms to measure the "Lowest Estimated Sky-SB" (LES) in each image between the discrete objects. The best algorithms recover the LES values within 0.2% when there are no image gradients, and within 0.2%–0.4% when there are 5%–10% gradients. We provide a proof of concept of our methods from the WFC3/IR F125W images, where any residual diffuse light that HST sees in excess of zodiacal model predictions does not depend on the total object flux that each image contains. This enables us to present our first SKYSURF results on diffuse light in Carleton et al.

Published

2022

3. FIGS: spectral fitting constraints on the star formation history of massive galaxies since the cosmic noon

Author

Ignacio Ferreras, Anna Pasquali, Nor Pirzkal, John Pharo, Sangeeta Malhotra, James Rhoads, Nimish Hathi, Rogier Windhorst, Andrea Cimatti, Lise Christensen, Steven L Finkelstein, Norman Grogin, Bhavin Joshi, Keunho Kim, Anton Koekemoer, Robert O’Connell, Göran Östlin, Barry Rothberg, and Russell Ryan

Published

2019

4. A Census of the Bright z = 8.5–11 Universe with the Hubble and Spitzer Space Telescopes in the CANDELS Fields

Author

Steven L. Finkelstein, Micaela Bagley, Mimi Song, Rebecca Larson, Casey Papovich, Mark Dickinson, Keely D. Finkelstein, Anton M. Koekemoer, Norbert Pirzkal, Rachel S. Somerville, L. Y. Aaron Yung, Peter Behroozi, Harry Ferguson, Mauro Giavalisco, Norman Grogin, Nimish Hathi, Taylor A. Hutchison, Intae Jung, Dale Kocevski, Lalitwadee Kawinwanichakij, Sofía Rojas-Ruiz, Russell Ryan, Gregory F. Snyder, and Sandro Tacchella

Published

2022

5. FIGS: spectral fitting constraints on the star formation history of massive galaxies since the cosmic noon

Author

Ignacio Ferreras, Anna Pasquali, Nor Pirzkal, John Pharo, Sangeeta Malhotra, James Rhoads, Nimish Hathi, Rogier Windhorst, Andrea Cimatti, Lise Christensen, Steven L. Finkelstein, Norman Grogin, Bhavin Joshi, Keunho Kim, Anton Koekemoer, Robert O'Connell, Göran Östlin, Barry Rothberg, and Russell Ryan

Subjects

Astronomy, Astrophysics

Abstract

We constrain the stellar population properties of a sample of 52 massive galaxies – with stellar mass log (M(s)/M(⊙)) ≳ 10.5 – over the redshift range 0.5 < z < 2 by use of observer-frame optical and near-infrared slitless spectra from Hubble Space Telescope’s ACS and WFC3 grisms. The deep exposures (∼100 ks) allow us to target individual spectra of massive galaxies to F160W = 22.5 AB. Our spectral fitting approach uses a set of six base models adapted to the redshift and spectral resolution of each observation, and fits the weights of the base models, including potential dust attenuation, via a Markov Chain Monte Carlo method. Our sample comprises a mixed distribution of quiescent (19) and star-forming galaxies (33). We quantify the width of the age distribution (Δt) that is found to dominate the variance of the retrieved parameters according to principal component analysis. The population parameters follow the expected trend towards older ages with increasing mass, and Δt appears to weakly anticorrelate with stellar mass, suggesting a more efficient star formation at the massive end. As expected, the redshift dependence of the relative stellar age (measured in units of the age of the Universe at the source) in the quiescent sample rejects the hypothesis of a single burst (aka monolithic collapse). Radial colour gradients within each galaxy are also explored, finding a wider scatter in the star-forming subsample, but no conclusive trend with respect to the population parameters.

Published

2019