Back to Search Start Over

The Wide Field Infrared Survey Telescope: 100 Hubbles for the 2020s

Authors :
Akeson, Rachel
Armus, Lee
Bachelet, Etienne
Bailey, Vanessa
Bartusek, Lisa
Bellini, Andrea
Benford, Dominic
Bennett, David
Bhattacharya, Aparna
Bohlin, Ralph
Boyer, Martha
Bozza, Valerio
Bryden, Geoffrey
Calchi Novati, Sebastiano
Carpenter, Kenneth
Casertano, Stefano
Choi, Ami
Content, David
Dayal, Pratika
Dressler, Alan
Doré, Olivier
Fall, S. Michael
Fan, Xiaohui
Xiao Fang
Filippenko, Alexei
Finkelstein, Steven
Foley, Ryan
Furlanetto, Steven
Kalirai, Jason
Gaudi, B. Scott
Gilbert, Karoline
Girard, Julien
Grady, Kevin
Greene, Jenny
Guhathakurta, Puragra
Heinrich, Chen
Hemmati, Shoubaneh
Hendel, David
Henderson, Calen
Henning, Thomas
Hirata, Christopher
Ho, Shirley
Huff, Eric
Hutter, Anne
Jansen, Rolf
Jha, Saurabh
Johnson, Samson
Jones, David
Kasdin, Jeremy
Kelly, Patrick
Kirshner, Robert
Koekemoer, Anton
Kruk, Jeffrey
Lewis, Nikole
Macintosh, Bruce
Madau, Piero
Malhotra, Sangeeta
Mandel, Kaisey
Massara, Elena
Masters, Daniel
Mcenery, Julie
Mcquinn, Kristen
Melchior, Peter
Melton, Mark
Mennesson, Bertrand
Peeples, Molly
Penny, Matthew
Perlmutter, Saul
Pisani, Alice
Plazas, Andrés
Poleski, Radek
Postman, Marc
Ranc, Clément
Rauscher, Bernard
Rest, Armin
Roberge, Aki
Robertson, Brant
Rodney, Steven
Rhoads, James
Rhodes, Jason
Ryan, Russell
Sahu, Kailash
Sand, David
Scolnic, Dan
Seth, Anil
Shvartzvald, Yossi
Siellez, Karelle
Smith, Arfon
Spergel, David
Stassun, Keivan
Street, Rachel
Strolger, Louis-Gregory
Szalay, Alexander
Trauger, John
Troxel, M. A.
Turnbull, Margaret
Marel, Roeland
Linden, Anja
Wang, Yun
Weinberg, David
Williams, Benjamin
Windhorst, Rogier
Wollack, Edward
Wu, Hao-Yi
Yee, Jennifer
Zimmerman, Neil
Source :
INSPIRE-HEP

Abstract

The Wide Field Infrared Survey Telescope (WFIRST) is a 2.4m space telescope with a 0.281 deg^2 field of view for near-IR imaging and slitless spectroscopy and a coronagraph designed for > 10^8 starlight suppresion. As background information for Astro2020 white papers, this article summarizes the current design and anticipated performance of WFIRST. While WFIRST does not have the UV imaging/spectroscopic capabilities of the Hubble Space Telescope, for wide field near-IR surveys WFIRST is hundreds of times more efficient. Some of the most ambitious multi-cycle HST Treasury programs could be executed as routine General Observer (GO) programs on WFIRST. The large area and time-domain surveys planned for the cosmology and exoplanet microlensing programs will produce extraordinarily rich data sets that enable an enormous range of Archival Research (AR) investigations. Requirements for the coronagraph are defined based on its status as a technology demonstration, but its expected performance will enable unprecedented observations of nearby giant exoplanets and circumstellar disks. WFIRST is currently in the Preliminary Design and Technology Completion phase (Phase B), on schedule for launch in 2025, with several of its critical components already in production.<br />14 pages, 3 figures, 2 tables

Details

Database :
OpenAIRE
Journal :
INSPIRE-HEP
Accession number :
edsair.doi.dedup.....16027c6ab7566f8e0365a32c826b5d6e