Development of high-homogeneity magnetic field coil for 129Xe EDM experiment

Y. Sakamoto; C. P. Bidinosti; Y. Ichikawa; T. Sato; Y. Ohtomo; S. Kojima; C. Funayama; T. Suzuki; M. Tsuchiya; T. Furukawa; A. Yoshimi; T. Ino; H. Ueno; Y. Matsuo; T. Fukuyama; K. Asahi

doi:10.1007/s10751-014-1109-5

Development of high-homogeneity magnetic field coil for ¹²⁹Xe EDM experiment

Y. Sakamoto, C. P. Bidinosti, Y. Ichikawa, T. Sato, Y. Ohtomo, S. Kojima, C. Funayama, T. Suzuki, M. Tsuchiya, T. Furukawa, A. Yoshimi, T. Ino, H. Ueno, Y. Matsuo, T. Fukuyama, K. Asahi

Research Institute for Interdisciplinary Science

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

18 Citations (Scopus)

Abstract

We search for ¹²⁹Xe EDM by using an active nuclear spin maser. In this experiment, the amplitude of the maser oscillation signal is one of the most important parameters that eventually determine the frequency precision. The amplitude is proportional to the ratio of the transverse spin relaxation time T₂ to the effective longitudinal spin relaxation time (Formula presented.). In particular, for a spin maser of ³He (a co-magnetometer) for which (Formula presented.) typically reaches ∼50 h, a long T₂ is needed. T₂ depends on the homogeneity of the magnetic field which is applied with coils in order to keep the spins under precession. In the present report, we discuss on the design and construction of a new coil which provided a root-mean square (rms) field gradient of less than 5.0 μG/cm. The result of the field measurement has shown that the field gradient in the cell fulfills the target condition (Formula presented.), and in fact T₂ of ³He has been measured to be as long as 11,000 s.

Original language	English
Pages (from-to)	141-146
Number of pages	6
Journal	Hyperfine Interactions
Volume	230
Issue number	1-3
DOIs	https://doi.org/10.1007/s10751-014-1109-5
Publication status	Published - Apr 1 2015

Keywords

EDM
Magnetic coil
Spin maser

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Nuclear and High Energy Physics
Condensed Matter Physics
Physical and Theoretical Chemistry

Access to Document

10.1007/s10751-014-1109-5

Cite this

Sakamoto, Y., Bidinosti, C. P., Ichikawa, Y., Sato, T., Ohtomo, Y., Kojima, S., Funayama, C., Suzuki, T., Tsuchiya, M., Furukawa, T., Yoshimi, A., Ino, T., Ueno, H., Matsuo, Y., Fukuyama, T., & Asahi, K. (2015). Development of high-homogeneity magnetic field coil for ¹²⁹Xe EDM experiment. Hyperfine Interactions, 230(1-3), 141-146. https://doi.org/10.1007/s10751-014-1109-5

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abstract = "We search for 129Xe EDM by using an active nuclear spin maser. In this experiment, the amplitude of the maser oscillation signal is one of the most important parameters that eventually determine the frequency precision. The amplitude is proportional to the ratio of the transverse spin relaxation time T2 to the effective longitudinal spin relaxation time (Formula presented.). In particular, for a spin maser of 3He (a co-magnetometer) for which (Formula presented.) typically reaches ∼50 h, a long T2 is needed. T2 depends on the homogeneity of the magnetic field which is applied with coils in order to keep the spins under precession. In the present report, we discuss on the design and construction of a new coil which provided a root-mean square (rms) field gradient of less than 5.0 μG/cm. The result of the field measurement has shown that the field gradient in the cell fulfills the target condition (Formula presented.), and in fact T2 of 3He has been measured to be as long as 11,000 s.",

keywords = "EDM, Magnetic coil, Spin maser",

author = "Y. Sakamoto and Bidinosti, {C. P.} and Y. Ichikawa and T. Sato and Y. Ohtomo and S. Kojima and C. Funayama and T. Suzuki and M. Tsuchiya and T. Furukawa and A. Yoshimi and T. Ino and H. Ueno and Y. Matsuo and T. Fukuyama and K. Asahi",

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AU - Sakamoto, Y.

AU - Bidinosti, C. P.

AU - Ichikawa, Y.

AU - Sato, T.

AU - Ohtomo, Y.

AU - Kojima, S.

AU - Funayama, C.

AU - Suzuki, T.

AU - Tsuchiya, M.

AU - Furukawa, T.

AU - Yoshimi, A.

AU - Ino, T.

AU - Ueno, H.

AU - Matsuo, Y.

AU - Fukuyama, T.

AU - Asahi, K.

PY - 2015/4/1

Y1 - 2015/4/1

N2 - We search for 129Xe EDM by using an active nuclear spin maser. In this experiment, the amplitude of the maser oscillation signal is one of the most important parameters that eventually determine the frequency precision. The amplitude is proportional to the ratio of the transverse spin relaxation time T2 to the effective longitudinal spin relaxation time (Formula presented.). In particular, for a spin maser of 3He (a co-magnetometer) for which (Formula presented.) typically reaches ∼50 h, a long T2 is needed. T2 depends on the homogeneity of the magnetic field which is applied with coils in order to keep the spins under precession. In the present report, we discuss on the design and construction of a new coil which provided a root-mean square (rms) field gradient of less than 5.0 μG/cm. The result of the field measurement has shown that the field gradient in the cell fulfills the target condition (Formula presented.), and in fact T2 of 3He has been measured to be as long as 11,000 s.

AB - We search for 129Xe EDM by using an active nuclear spin maser. In this experiment, the amplitude of the maser oscillation signal is one of the most important parameters that eventually determine the frequency precision. The amplitude is proportional to the ratio of the transverse spin relaxation time T2 to the effective longitudinal spin relaxation time (Formula presented.). In particular, for a spin maser of 3He (a co-magnetometer) for which (Formula presented.) typically reaches ∼50 h, a long T2 is needed. T2 depends on the homogeneity of the magnetic field which is applied with coils in order to keep the spins under precession. In the present report, we discuss on the design and construction of a new coil which provided a root-mean square (rms) field gradient of less than 5.0 μG/cm. The result of the field measurement has shown that the field gradient in the cell fulfills the target condition (Formula presented.), and in fact T2 of 3He has been measured to be as long as 11,000 s.

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KW - Spin maser

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