Towards an Improved Measurement of the Proton Magnetic Moment | Zendy

G. Schneider | Zendy; N. Leefer | Zendy; A. Mooser | Zendy; K. Blaum | Zendy; Takashi Higuchi | Zendy; Y. Matsuda | Zendy; H. Nagahama | Zendy; W. Quint | Zendy; Stefan Sellner | Zendy; C. Smorra | Zendy; J. Walz | Zendy; S. Ulmer | Zendy

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Towards an Improved Measurement of the Proton Magnetic Moment

Author(s) -

G. Schneider,

N. Leefer,

A. Mooser,

K. Blaum,

Takashi Higuchi,

Y. Matsuda,

H. Nagahama,

W. Quint,

Stefan Sellner,

C. Smorra,

J. Walz,

S. Ulmer

Publication year - 2017

Language(s) - English

Resource type - Conference proceedings

DOI - 10.7566/jpscp.18.011018

Subject(s) - proton magnetic moment , magnetic moment , proton , moment (physics) , computer science , physics , electron magnetic dipole moment , nuclear physics , magnetic field , condensed matter physics , magnetization , classical mechanics , quantum mechanics

The BASE collaboration performed the most precise measurement of the proton magnetic moment. By applying the so-called double Penning-trap method with a single proton a fractional precision of 3.3 parts-per-billion was reached. This article describes the primary limitations of the last measurement and discusses improvements to reach the sub-parts-per-billion level

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