Non-extensive statistics in spin precession

M. J. Bales; P. Fierlinger; R. Golub

doi:10.1209/0295-5075/116/43002

Non-extensive statistics in spin precession

M. J. Bales, P. Fierlinger, R. Golub

Chair of Precision Measurements at Extreme Conditions

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1 Scopus citations

Abstract

Many experiments utilize the precession of trapped particles in magnetic fields to perform high-precision measurements. It has often been presumed that after free precession, initially polarized particles will form a Gaussian phase distribution in the plane of precession. We show that trapped particles in the presence of magnetic-field gradients and electric fields will often form a non-Gaussian distribution with power-law tails with the exact shape of the distribution depending upon many experimental parameters. The results are consistent with distributions predicted by non-extensive statistics.

Original language	English
Article number	43002
Journal	Europhysics Letters
Volume	116
Issue number	4
DOIs	https://doi.org/10.1209/0295-5075/116/43002
State	Published - Nov 2016

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title = "Non-extensive statistics in spin precession",

abstract = "Many experiments utilize the precession of trapped particles in magnetic fields to perform high-precision measurements. It has often been presumed that after free precession, initially polarized particles will form a Gaussian phase distribution in the plane of precession. We show that trapped particles in the presence of magnetic-field gradients and electric fields will often form a non-Gaussian distribution with power-law tails with the exact shape of the distribution depending upon many experimental parameters. The results are consistent with distributions predicted by non-extensive statistics.",

author = "Bales, {M. J.} and P. Fierlinger and R. Golub",

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AB - Many experiments utilize the precession of trapped particles in magnetic fields to perform high-precision measurements. It has often been presumed that after free precession, initially polarized particles will form a Gaussian phase distribution in the plane of precession. We show that trapped particles in the presence of magnetic-field gradients and electric fields will often form a non-Gaussian distribution with power-law tails with the exact shape of the distribution depending upon many experimental parameters. The results are consistent with distributions predicted by non-extensive statistics.

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Non-extensive statistics in spin precession

Abstract

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