S. Wasserzug
3 Papers
15 Citations
S. Wasserzug is an academic researcher. The author has contributed to research in topics: Engineering & Peer group. The author has an hindex of 1, co-authored 1 publications.
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Papers
Status of resolve instrument onboard X-Ray Imaging and Spectroscopy Mission (XRISM)
Yoshitaka Ishisaki,Richard L. Kelley,Hisamitsu Awaki,Jesus C. Balleza,Kim Barnstable,Thomas G. Bialas,R. Boissay-Malaquin,Gregory W. Brown,Edgar Canavan,Renata Cumbee,Tim Carnahan,Meng P. Chiao,Brian Comber,Elisa Costantini,J. W. den Herder,Johannes Dercksen,C. de Vries,Michael J. DiPirro,Megan E. Eckart,Yuichiro Ezoe,Carlo Ferrigno,Ryuichi Fujimoto,Nathalie Gorter,Steve Graham,Martin Grim,Leslie Hartz,R. Hayakawa,Takayuki Hayashi,Natalie Hell,Akio Hoshino,Yuto Ichinohe,Manabu Ishida,A. Ishikawa,Bryan L. James,Steven Kenyon,Caroline A. Kilbourne,Mark O. Kimball,Shunji Kitamoto,Maurice A. Leutenegger,Yoshitomo Maeda,Dan McCammon,Joseph Miko,Misaki Mizumoto,Takashi Okajima,Atsushi Okamoto,Stéphane Paltani,F. Scott Porter,Kosuke Sato,Toshiki Sato,Makoto Sawada,Keisuke Shinozaki,R. Shipman,Peter Shirron,Gary A. Sneiderman,Yang Soong,R. Szymkiewicz,Andrew Szymkowiak,Yoh Takei,Keisuke Tamura,Masahiro Tsujimoto,Yuusuke Uchida,S. Wasserzug,M. C. Witthoeft,Rob Wolfs,Shinya Yamada,Susumu Yasuda +65 more
- 31 Aug 2022
TL;DR: The resolve instrument onboard the X-Ray Imaging and Spectroscopy Mission (XRISM) consists of an array of 6 × 6 silicon-thermistor microcalorimeters cooled down to 50 mK and a high-throughput x-ray mirror assembly (XMA) with a focal length of 5.6 m as mentioned in this paper .
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Nursing leaders of tomorrow: a peer selection process.
TL;DR: Combining peer evaluation with structured leadership selection may be beneficial for the early recognition of future nursing leaders and contribute to a sense of trust between management and staff, and promote transparency as well as legitimacy in the selection process.
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Pre- and post-launch operation of the Resolve soft X-ray spectrometer onboard the XRISM satellite
Kosuke Sato,Yoshitaka Ishisaki,Richard L. Kelley,Hisamitsu Awaki,Jesus C. Balleza,Kim Barnstable,Thomas G. Bialas,R. Boissay-Malaquin,Edgar R. Canavan,Renata Cumbee,Tim Carnahan,Meng P. Chiao,Brian Comber,Elisa Costantini,Jan-Willem A. den Herder,Johannes Dercksen,C. de Vries,M. DiPirro,Megan E. Eckart,Yuichiro Ezoe,C. Ferrigno,Ryuichi Fujimoto,Nathalie Gorter,Steve Graham,Martin Grim,Leslie Hartz,Ryota Hayakawa,Takayuki Hayashi,N. Hell,Akio Hoshino,Yuto Ichinohe,Daiki Ishi,Manabu Ishida,K. Ishikawa,Bryan L. James,Yoshiaki Kanemaru,Steven Kenyon,Caroline A. Kilbourne,Mark O. Kimball,Shunji Kitamoto,Maurice A. Leutenegger,Yoshitomo Maeda,Dan McCammon,Brian J. McLaughlin,Joseph Miko,Erik van der Meer,Misaki Mizumoto,Takashi Okajima,Atsushi Okamoto,Stéphane Paltani,F. Porter,L. Reichenthal,Toshiki Sato,Makoto Sawada,Keisuke Shinozaki,Russell F. Shipman,Peter Shirron,Gary A. Sneiderman,Yang Soong,R. Szymkiewicz,Andrew Szymkowiak,Yoh Takei,Mai Takeo,Tsubasa Tamba,Keisuke Tamura,M. Tsujimoto,Yuusuke Uchida,S. Wasserzug,M. C. Witthoeft,Rob Wolfs,Shinya Yamada,Susumu Yasuda,Noriko Y. Yamasaki,Seiji Yoshida +73 more
TL;DR: The Resolve soft X-ray spectrometer onboard XRISM satellite achieved better-than-required spectral resolution, outperforming ASTRO-H, with a 50 mK microcalorimeter detector array and a two-stage adiabatic demagnetization refrigerator, meeting lifetime requirements and launch constraints.