Dynamical Response of Transition-Edge Sensor Microcalorimeters to a Pulsed Charged-Particle Beam

Authors :: Takuma Okumura
Hirofumi Noda
Kazuhiko Ninomiya
Malcolm Durkin
Joel N. Ullom
T. Azuma
Naritoshi Kawamura
Yuto Ichinohe
Daniel S. Swetz
W. Bertrand Doriese
Koichiro Shimomura
Yasushi Kino
Yasuhiro Ueno
Pietro Caradonna
Soshi Takeshita
S. Kanda
Yasuhiro Miyake
T. Hashimoto
Paul Indelicato
Joseph W. Fowler
Shin Watanabe
Kairi Mine
Johnathon D. Gard
Takahito Osawa
Carl D. Reintsema
Patrick Strasser
Gene C. Hilton
Shinji Okada
Tadayuki Takahashi
Galen C. O'Neil
Shin'ichiro Takeda
Shinya Yamada
R. Hayakawa
Tadaaki Isobe
H. Tatsuno
Hirotaka Suda
Miho Katsuragawa
Kenichi Okutsu
I-Huan Chiu
Kelsey M. Morgan
Douglas A. Bennett
Daniel Schmidt
N. Paul
Source :: IEEE Transactions on Applied Superconductivity. 31:1-4
Publication Year :: 2021
Publisher :: Institute of Electrical and Electronics Engineers (IEEE), 2021.
Abstract: A superconducting transition-edge sensor (TES) microcalorimeter is an ideal X-ray detector for experiments at accelerator facilities because of good energy resolution and high efficiency. To study the performance of the TES detector with a high-intensity pulsed charged-particle beam, we measured X-ray spectra with a pulsed muon beam at the Japan Proton Accelerator Research Complex (J-PARC) in Japan. We found substantial temporal shifts of the X-ray energy correlated with the arrival time of the pulsed muon beam, which was reasonably explained by pulse pileup due to the incidence of energetic particles from the initial pulsed beam.

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