Development of TES Microcalorimeters with Solar-Axion Converter

R. Konno; K. Maehisa; K. Mitsuda; N. Y. Yamasaki; R. Yamamoto; T. Hayashi; H. Muramatsu; Y. Nakashima; K. Maehata; T. Homma; M. Saito; M. Sugie; R. Sato

doi:10.1007/s10909-019-02257-9

Development of TES Microcalorimeters with Solar-Axion Converter

R. Konno, K. Maehisa, K. Mitsuda, N. Y. Yamasaki, R. Yamamoto, T. Hayashi, H. Muramatsu, Y. Nakashima, K. Maehata, T. Homma, M. Saito, M. Sugie, R. Sato

Applied Nuclear Physics

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Several issues in developing transition edge sensor (TES) microcalorimeters for the search of monochromatic solar axions expected at 14.4 keV are studied. The potential problem of developing TES’s of this purpose is in that an axion absorber of ⁵⁷Fe must be placed in close vicinity of a TES. We estimated the minimum distance to avoid magnetic interference from iron using magnetic FEM simulations, and found it 30 μ m for an iron of 5 μ m thickness. We fabricated a TES with a 10 μ m thick iron membrane separated by 60 μ m. We confirmed the superconducting transition for this TES. However, both the residual normal resistance and the transition temperature was different from those of TES without iron. We also estimated the low-temperature thermal conductivity of an iron membrane by measuring the low-temperature electrical resistance and by applying the Wiedemann–Franz law. We estimated the pulse-shape dependency on the interaction position within the ⁵⁷Fe converted using thermal FEM simulations. We found that the pulse-shape variations will limit the energy resolution to about 30 eV FWHM.

Original language	English
Pages (from-to)	654-662
Number of pages	9
Journal	Journal of Low Temperature Physics
Volume	199
Issue number	3-4
DOIs	https://doi.org/10.1007/s10909-019-02257-9
Publication status	Published - May 1 2020

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics
Materials Science(all)
Condensed Matter Physics

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10.1007/s10909-019-02257-9

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@article{4829dcf9c1f546e28d30683ab2fac658,

title = "Development of TES Microcalorimeters with Solar-Axion Converter",

abstract = "Several issues in developing transition edge sensor (TES) microcalorimeters for the search of monochromatic solar axions expected at 14.4 keV are studied. The potential problem of developing TES{\textquoteright}s of this purpose is in that an axion absorber of 57Fe must be placed in close vicinity of a TES. We estimated the minimum distance to avoid magnetic interference from iron using magnetic FEM simulations, and found it 30 μ m for an iron of 5 μ m thickness. We fabricated a TES with a 10 μ m thick iron membrane separated by 60 μ m. We confirmed the superconducting transition for this TES. However, both the residual normal resistance and the transition temperature was different from those of TES without iron. We also estimated the low-temperature thermal conductivity of an iron membrane by measuring the low-temperature electrical resistance and by applying the Wiedemann–Franz law. We estimated the pulse-shape dependency on the interaction position within the 57Fe converted using thermal FEM simulations. We found that the pulse-shape variations will limit the energy resolution to about 30 eV FWHM.",

author = "R. Konno and K. Maehisa and K. Mitsuda and Yamasaki, {N. Y.} and R. Yamamoto and T. Hayashi and H. Muramatsu and Y. Nakashima and K. Maehata and T. Homma and M. Saito and M. Sugie and R. Sato",

note = "Funding Information: The authors are grateful to S. Moriyama for stimulating discussion and his suggestions about solar axion searches. This work was supported by JSPS KAKENHI Grant Number 18H01244. Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. ",

year = "2020",

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doi = "10.1007/s10909-019-02257-9",

language = "English",

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TY - JOUR

T1 - Development of TES Microcalorimeters with Solar-Axion Converter

AU - Konno, R.

AU - Maehisa, K.

AU - Mitsuda, K.

AU - Yamasaki, N. Y.

AU - Yamamoto, R.

AU - Hayashi, T.

AU - Muramatsu, H.

AU - Nakashima, Y.

AU - Maehata, K.

AU - Homma, T.

AU - Saito, M.

AU - Sugie, M.

AU - Sato, R.

N1 - Funding Information: The authors are grateful to S. Moriyama for stimulating discussion and his suggestions about solar axion searches. This work was supported by JSPS KAKENHI Grant Number 18H01244. Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

PY - 2020/5/1

Y1 - 2020/5/1

N2 - Several issues in developing transition edge sensor (TES) microcalorimeters for the search of monochromatic solar axions expected at 14.4 keV are studied. The potential problem of developing TES’s of this purpose is in that an axion absorber of 57Fe must be placed in close vicinity of a TES. We estimated the minimum distance to avoid magnetic interference from iron using magnetic FEM simulations, and found it 30 μ m for an iron of 5 μ m thickness. We fabricated a TES with a 10 μ m thick iron membrane separated by 60 μ m. We confirmed the superconducting transition for this TES. However, both the residual normal resistance and the transition temperature was different from those of TES without iron. We also estimated the low-temperature thermal conductivity of an iron membrane by measuring the low-temperature electrical resistance and by applying the Wiedemann–Franz law. We estimated the pulse-shape dependency on the interaction position within the 57Fe converted using thermal FEM simulations. We found that the pulse-shape variations will limit the energy resolution to about 30 eV FWHM.

AB - Several issues in developing transition edge sensor (TES) microcalorimeters for the search of monochromatic solar axions expected at 14.4 keV are studied. The potential problem of developing TES’s of this purpose is in that an axion absorber of 57Fe must be placed in close vicinity of a TES. We estimated the minimum distance to avoid magnetic interference from iron using magnetic FEM simulations, and found it 30 μ m for an iron of 5 μ m thickness. We fabricated a TES with a 10 μ m thick iron membrane separated by 60 μ m. We confirmed the superconducting transition for this TES. However, both the residual normal resistance and the transition temperature was different from those of TES without iron. We also estimated the low-temperature thermal conductivity of an iron membrane by measuring the low-temperature electrical resistance and by applying the Wiedemann–Franz law. We estimated the pulse-shape dependency on the interaction position within the 57Fe converted using thermal FEM simulations. We found that the pulse-shape variations will limit the energy resolution to about 30 eV FWHM.

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Development of TES Microcalorimeters with Solar-Axion Converter

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