Nuclear-resonance magnetometer with flowing liquid for superstrong inhomogeneous fields measuring | Zendy

В В Давыдов | Zendy; V. I. Dudkin | Zendy; V. A. Vologdin | Zendy

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Nuclear-resonance magnetometer with flowing liquid for superstrong inhomogeneous fields measuring

Author(s) -

В В Давыдов,

V. I. Dudkin,

V. A. Vologdin

Publication year - 2016

Publication title -

international journal of modern physics conference series

Language(s) - English

Resource type - Journals

ISSN - 2010-1945

DOI - 10.1142/s2010194516601460

Subject(s) - magnetometer , physics , magnetic field , sensitivity (control systems) , nuclear magnetic resonance , resonance (particle physics) , detector , signal (programming language) , field (mathematics) , nuclear physics , atomic physics , optics , computer science , mathematics , engineering , electronic engineering , quantum mechanics , programming language , pure mathematics

Multichannel nuclear-resonance magnetometer for remote monitoring of induction and heterogeneity of a magnetic field in different areas inside and near a charged particle accelerator is considered. The maximal distance between the nuclear magnetic resonance signal detector and the magnetometer is 50 m. Measurement error is 0.5%, sensitivity of the magnetometer is 10[Formula: see text] T/Hz[Formula: see text], measurement time of the magnetic field parameters in 24 control points is no more than 4 minutes.

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