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Vibration Characteristics of a Continuously Rotating Superconducting Magnetic Bearing and Potential Influence to TES and SQUID

by Sato, K. , Takaku, R. , Hoshino, Y. , Komatsu, K. , Tashiro, M. , Ghigna, T. , Katsuda, S. , Matsumura, T. , Sugiyama, S. , Katayama, N. , Sakurai, Y. , Terada, Y.

in Amplitudes / Breadboard models / Characterization and Evaluation of Materials / Condensed Matter Physics / Critical temperature / Focal plane / High temperature superconductors / Liquid nitrogen / Low temperature physics / Magnetic bearings / Magnetic fields / Magnetic Materials / Magnetism / Physics / Physics and Astronomy / Prototypes / Rotation / Sensors / Superconducting quantum interference devices / Superconductivity / Vibration / Vibration measurement

2022

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Vibration Characteristics of a Continuously Rotating Superconducting Magnetic Bearing and Potential Influence to TES and SQUID

by Sato, K. , Takaku, R. , Hoshino, Y. , Komatsu, K. , Tashiro, M. , Ghigna, T. , Katsuda, S. , Matsumura, T. , Sugiyama, S. , Katayama, N. , Sakurai, Y. , Terada, Y.

2022

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Vibration Characteristics of a Continuously Rotating Superconducting Magnetic Bearing and Potential Influence to TES and SQUID

by Sato, K. , Takaku, R. , Hoshino, Y. , Komatsu, K. , Tashiro, M. , Ghigna, T. , Katsuda, S. , Matsumura, T. , Sugiyama, S. , Katayama, N. , Sakurai, Y. , Terada, Y.

2022

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Journal Article

Vibration Characteristics of a Continuously Rotating Superconducting Magnetic Bearing and Potential Influence to TES and SQUID

Sato, K.,

Takaku, R.,

Hoshino, Y.,

Komatsu, K.,

Tashiro, M.,

Ghigna, T.,

Katsuda, S.,

Matsumura, T.,

Sugiyama, S.,

Katayama, N.,

Sakurai, Y.,

Terada, Y.

2022

Overview

We measured the vibration of a prototype superconducting magnetic bearing (SMB) operating at liquid nitrogen temperature. This prototype system was designed as a breadboard model for LiteBIRD low-frequency telescope (LFT) polarization modulator unit. We set an upper limit of the vibration amplitude at 36 μ m at the rotational synchronous frequency. During the rotation, the amplitude of the magnetic field produced varies. From this setup, we compute the static and AC amplitude of the magnetic fields produced by the SMB magnet at the location of the LFT focal plane as 0.24 and 3 × 10 - 5 G, respectively. From the AC amplitude, we compute TES critical temperature variation of 7 × 10 - 8 K and fractional change of the SQUID flux is δ Φ / Φ 0 | ac = 3.1 × 10 - 5 . The mechanical vibration can be also estimated to be 3.6 × 10 - 2 N at the rotation mechanism location.

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Publisher

Springer US,Springer Nature B.V

Subject

Amplitudes

/ Breadboard models

/ Characterization and Evaluation of Materials

/ Condensed Matter Physics

/ Critical temperature

/ Focal plane

/ High temperature superconductors