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Status of x-ray imaging and spectroscopy mission (XRISM)

Authors :
Yutaka Fujita
Koji Mukai
Peter Shirron
Kumiko K. Nobukawa
Toshiaki Takeshima
Isamu Hatsukade
Richard F. Mushotzky
Brian J. Williams
Greg Brown
Hirofumi Noda
Brian Comber
Maria Diaz-Trigo
Manabu Ishida
Brian R. McNamara
Takahiro Sasaki
M. Ohno
Iurii Babyk
Richard L. Kelley
Sayuri Iga
Hiroshi Nakajima
Yuusuke Uchida
Hiroya Yamaguchi
Caroline A. Kilbourne
Takeshi Go Tsuru
Kosuke Sato
Tsunefumi Mizuno
Ryo Iizuka
Irina Zhuravleva
Shogo B. Kobayashi
Hironori Matsumoto
Matthew Holland
K. Matsuzaki
Makoto Sawada
Laura Brenneman
Susumu Yasuda
Shinya Yamada
Makoto Tashiro
Hirokazu Odaka
Yoshihiro Ueda
Keiichi Yanagase
Hiroki Akamatsu
Yasuharu Sugawara
Akihiro Furuzawa
Nobutaka Bando
Akio Hoshino
Koji Mori
Misaki Mizumoto
Lia Corrales
Katsuhiro Hayashi
Yasushi Fukazawa
Hideki Uchiyama
Hironori Maejima
Robert Petre
Yoshitaka Ishisaki
Teruaki Enoto
Mina Ogawa
Kenichi Toda
Natalie Hell
Shin'ichiro Uno
Tessei Yoshida
Thomas G. Bialas
Maurice A. Leutenegger
Masayuki Ohta
Yang Soong
Elisa Costantini
Kenji Hamaguchi
Shunji Kitamoto
Takafumi Horiuchi
Leslie Hartz
Luigi C. Gallo
Edmund Hodges-Kluck
Renata Cumbee
Yusuke Nishioka
Toshiki Sato
Paul P. Plucinsky
Katja Pottschmidt
Aya Kubota
Ehud Behar
Tom Lockard
Masanobu Ozaki
Kenji Minesugi
Ann Hornschemeier
T. R. Jaffe
Aurora Simionescu
Kazutaka Yamaoka
Stéphane Paltani
Keisuke Tamura
Chris Done
Makoto Yamauchi
Kouichi Hagino
Kosei Ishimura
Akihide Kobayashi
Eric J. Miller
Carlo Ferrigno
Hiromitsu Takahashi
Hiromi Seta
Nathalie Gorter
Cor P. de Vries
Michael J. Sampson
A. E. Szymkowiak
Mark O. Kimball
Gary A. Sneiderman
Dan McCammon
Meng P. Chiao
S. Eguchi
Randall K. Smith
Naoki Ishihama
Yohko Tsuboi
Jon M. Miller
Erin Kara
Takayoshi Kohmura
Timothy R. Kallman
Takashi Okajima
Kenichiro Nigo
Jan-Willem den Herder
Shigeo Yamauchi
Kazunori Someya
Maxim Markevitch
Yuto Ichinohe
M. C. Witthoeft
Yukikatsu Terada
Nasa Yoshioka
Edgar Canavan
Jelle Kaastra
Takao Kitaguchi
Masahiro Tsujimoto
Hideto Nakamura
Shinji Mitani
Hiroyuki Uchida
Masayoshi Nobukawa
R. Sato
Atsushi Tanimoto
Junko S. Hiraga
Keisuke Shinozaki
Yuichiro Ezoe
Hiroshi Tsunemi
Brian McLaughlin
Yasuko Shibano
Ikuyuki Mitsuishi
Matteo Guainazzi
Lillian Reichenthal
Yuichi Terashima
Kumi Ishikawa
Naomi Ota
Chikara Natsukari
Joseph Miko
Kiyoshi Hayashida
M. Loewenstein
Connor Martz
Tahir Yaqoob
D. Eckert
Ryuichi Fujimoto
Johannes Dercksen
Hiroshi Murakami
Hiroshi Tomida
Ken Ebisawa
Rob Wolfs
Martin Grim
Tomomi Watanabe
Marc Audard
Keisuke Sugawara
Yoh Takei
Megan E. Eckart
Takaya Ohashi
Atsushi Okamoto
Noriko Y. Yamasaki
Shin Watanabe
Yoshitomo Maeda
Shuhei Shigeto
Yoshitaka Arai
Maki Shida
Hisamitsu Awaki
Muzi Li
Takaaki Tanaka
Tadayasu Dotani
David Hawthorn
Jacco Vink
Joy Henegar-Leon
Rozenn Boissay-Malaquin
Kazuhiro Nakazawa
Aya Bamba
Megumi Shidatsu
Satoru Katsuda
Liyi Gu
Kyoko Matsushita
Toru Tamagawa
F. Scott Porter
Michael J. DiPirro
Steven Kenyon
High Energy Astrophys. & Astropart. Phys (API, FNWI)
Source :
Space Telescopes and Instrumentation 2020 : Ultraviolet to Gamma Ray: 14-18 December 2020, online only, California, United States, 1
Publication Year :
2020
Publisher :
SPIE, 2020.

Abstract

The X-Ray Imaging and Spectroscopy Mission (XRISM) is the successor to the 2016 Hitomi mission that ended prematurely. Like Hitomi, the primary science goals are to examine astrophysical problems with precise highresolution X-ray spectroscopy. XRISM promises to discover new horizons in X-ray astronomy. XRISM carries a 6 x 6 pixelized X-ray micro-calorimeter on the focal plane of an X-ray mirror assembly and a co-aligned X-ray CCD camera that covers the same energy band over a large field of view. XRISM utilizes Hitomi heritage, but all designs were reviewed. The attitude and orbit control system were improved in hardware and software. The number of star sensors were increased from two to three to improve coverage and robustness in onboard attitude determination and to obtain a wider field of view sun sensor. The fault detection, isolation, and reconfiguration (FDIR) system was carefully examined and reconfigured. Together with a planned increase of ground support stations, the survivability of the spacecraft is significantly improved.

Subjects

Subjects :
Sun sensor
Cardinal point
Spacecraft
Robustness (computer science)
Computer science
business.industry
Survivability
Control reconfiguration
Field of view
Aerospace engineering
business
Fault detection and isolation

Details

Language :
English
Database :
OpenAIRE
Journal :
Space Telescopes and Instrumentation 2020 : Ultraviolet to Gamma Ray: 14-18 December 2020, online only, California, United States, 1
Accession number :
edsair.doi.dedup.....584669694a480b163b59a24d5a15ac88

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Authors Abstract Subjects Details