Saito, T.
, Okada, S.
, Toyoma, Y.
, Azuma, T.
, Baptista, G.
, Becker, D.
, Bennett, D.
, Doriese, W.
, Fowler, J.
, Gard, J.
, Hashimoto, T.
, Hayakawa, R.
, Hayashi, T.
, Ichinohe, Y.
, Imrek, J.
, Indelicato, P.
, Isobe, T.
, Kanda, S.
, Kawamura, N.
, Mates, J.
, Miyake, Y.
, Morgan, K.
, Noda, H.
, O'Neil, G.
, Okumura, T.
, Paul, N.
, Schmidt, D.
, Shimomura, K.
, Strasser, P.
, Swetz, D.
, Takahashi, T.
, Tampo, M.
, Ullom, J.
, Umegaki, I.
, Weber, J.
, Yamada, S.
and Yan, D.
(2025),
Application of hard x-ray and gamma-ray TES microcalorimeters at an accelerator facility, IEEE Transactions on Applied Superconductivity, Salt Lake City, UT, US
(Accessed May 12, 2025)
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Application of hard x-ray and gamma-ray TES microcalorimeters at an accelerator facility
Published
Author(s)
Takeshi Saito, Shinji Okada, Yuichi Toyoma, Toshiyuki Azuma, Gonçalo Baptista, , , , , , Tadashi Hashimoto, Ryota Hayakawa, Tasuku HAYASHI, Yuto Ichinohe, Josef Imrek, Paul Indelicato, Tadaaki Isobe, Sohtaro Kanda, Naritoshi Kawamura, , Yasuhiro Miyake, , Hirofumi Noda, , Takuma Okumura, Nancy Paul, , Kouichiro Shimomura, Patrick Strasser, , Tadayuki Takahashi, Motonobu Tampo, , Izumi Umegaki, , Shinya Yamada, Daikang Yan
Abstract
The x-ray spectroscopy of the muonic atom has attracted atomic, nuclear, and particle physicists since its discovery. The properties of a muonic atom, such as its binding energy or atomic radius, are different from an ordinary atom because of the difference in the mass between the muon and electron. Our collaboration has employed superconductor transition-edge sensor (TES) microcalorimeters for the x-ray spectroscopy of the muonic atom. Thanks to the recent detector development, the 44-keV lines from muonic Ar, which is important for the precision test of bound-state quantum electrodynamics, and the 76-keV lines from muonic Si, which is of interest from the viewpoint of the measurement of nuclear radii, have been reached by the dynamic range of the state-of-art TES microcalorimeters. An accelerator facility that can produce a high-intensity muon beam is necessary for such spectroscopic experiments. We performed a commissioning experiment of the hard x-ray and gamma-ray TES microcalorimeter at the J-PARC MLF MUSE muon beam line. The energy resolution, gain stability, and performance of timing selection of the pulses were evaluated in the environment of a large-scale accelerator facility.Proceedings Title
IEEE Transactions on Applied Superconductivity
Conference Dates
September 2-6, 2024
Conference Location
Salt Lake City, UT, US
Conference Title
Applied Superconductivity
Pub Type
Conferences
Keywords
Transition-edge sensors (TES) devices, Superconducting microcalorimeters, Instrumentation and readout of superconducting devices
Citation
Issues
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Created January 24, 2025, Updated May 11, 2025