Absolute Energy Measurements with Superconducting Transition-Edge Sensors for Muonic X-ray Spectroscopy at 44 keV.

Authors :: Yan, Daikang
Weber, Joel C.
Guruswamy, Tejas
Morgan, Kelsey M.
O'Neil, Galen C.
Wessels, Abigail L.
Bennett, Douglas A.
Pappas, Christine G.
Mates, John A.
Gard, Johnathon D.
Becker, Daniel T.
Fowler, Joseph W.
Swetz, Daniel S.
Schmidt, Daniel R.
Ullom, Joel N.
Okumura, Takuma
Isobe, Tadaaki
Azuma, Toshiyuki
Okada, Shinji
Yamada, Shinya
Source :: Journal of Low Temperature Physics; Nov2022, Vol. 209 Issue 3/4, p271-277, 7p
Publication Year :: 2022
Abstract: Superconducting transition-edge sensor (TES) microcalorimeters have great utility in X-ray applications owing to their high energy resolution, good collecting efficiency and the feasibility of being multiplexed into large arrays. In this work, we develop hard X-ray TESs to measure the absolute energies of muonic-argon (μ-Ar) transition lines around 44 keV and 20 keV. TESs with sidecar absorbers of different heat capacities were fabricated and characterized for their energy resolution and calibration uncertainty. We achieved ~ 1 eV absolute energy measurement accuracy at 44 keV, and < 12 eV energy resolution at 17.5 keV. [ABSTRACT FROM AUTHOR]

Subjects :: X-ray spectroscopy
HARD X-rays
DETECTORS
HEAT capacity
CALORIMETERS

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