Impact of motion along the field direction on geometric-phase-induced false electric dipole moment signals

Details Impact of motion along the field direction on geometric-phase-induced false electric dipole moment signals Impact of motion along the field direction on geometric-phase-induced false electric dipole moment signals

2011-04-07

arxiv.org/abs/1104.1395v1

Physics

Nuclear Physics

Nuclear Experiment

7 pages, 3 figures, NIM A, in press

Scientific paper

Geometric-phase-induced false electric dipole moment (EDM) signals, resulting from interference between magnetic field gradients and particle motion in electric fields, have been studied extensively in the literature, especially for neutron EDM experiments utilizing stored ultracold neutrons and co-magnetometer atoms. Previous studies have considered particle motion in the transverse plane perpendicular to the direction of the applied electric and magnetic fields. We show, via Monte Carlo studies, that motion along the field direction can impact the magnitude of this false EDM signal if the wall surfaces are rough such that the wall collisions can be modeled as diffuse, with the results dependent on the size of the storage cell's dimension along the field direction.

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