Spin precession in anisotropic cosmologies

The inertial (due to rotation) and the gravitational fields of the Earth affect the motion of an elementary particle and its spin dynamics. This influence is not negligible and should be taken into account in high-energy physics experiments. Earth's influence is manifest in perturbations in the particle motion, in an additional precession of the spin, and in a change of the constitutive tensor of the Maxwell electrodynamics. Bigger corrections are oscillatory and their contributions average to zero. Other corrections due to the inhomogeneity of the inertial field are not oscillatory but they are very small and may be important only for the storage ring electric dipole moment experiments. Earth's gravity causes the Newton-like force, the reaction force provided by a focusing system, and additional torques acting on the spin. However, there are no observable indications of the electromagnetic effects due to Earth's gravity.

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General relativity effects in precision spin experimental tests of fundamental symmetries

Vergeles

Nikolaev

Obukhov

et al. 2021

Phys. Usp.

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Spin precession in anisotropic cosmologies

Cited by 3 publications

References 39 publications

Bianchi cosmologies, magnetic fields, and singularities

Bianchi cosmologies, magnetic fields, and singularities

Manifestations of the rotation and gravity of the Earth in high-energy physics experiments

General relativity effects in precision spin experimental tests of fundamental symmetries

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