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Main Authors: Biswas, L. R. Rahul, Mondal, Shrabani, Bag, Bidhan Chandra
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.13528
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author Biswas, L. R. Rahul
Mondal, Shrabani
Bag, Bidhan Chandra
author_facet Biswas, L. R. Rahul
Mondal, Shrabani
Bag, Bidhan Chandra
contents We investigate the spectrum for the rate constant of an electric field-driven charged Brownian particle in the presence of a magnetic field (MF). For the cross fields with low or high values of the cyclotron frequency, an asymmetric splitting of the spectrum occurs with two peaks. Anharmonicity-induced additional splitting may appear around the lower resonating frequency at the intermediate strength of the applied MF. Another observation is that if the magnetic field is tilted from the z-direction, an additional peak appears between the two peaks. The position of the middle peak may be independent of the strength of the applied MF. In some cases, only one peak appears even in the presence of a magnetic field. We explain these observations considering the dynamics around the stable fixed point and determine the position of the peak in the spectrum for the rate constant as a function of the strength of the applied magnetic field. Thus the present study may find applications for tuning the conductivity of a solid electrolyte, which is very important in recent technology. Other applications may be in areas such as electromagnetic field-induced modulation of (a) thermally activated tunneling ionization, (b) thermally stimulated ionization, etc.
format Preprint
id arxiv_https___arxiv_org_abs_2504_13528
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Effect of an electromagnetic field on the barrier crossing rate
Biswas, L. R. Rahul
Mondal, Shrabani
Bag, Bidhan Chandra
Statistical Mechanics
We investigate the spectrum for the rate constant of an electric field-driven charged Brownian particle in the presence of a magnetic field (MF). For the cross fields with low or high values of the cyclotron frequency, an asymmetric splitting of the spectrum occurs with two peaks. Anharmonicity-induced additional splitting may appear around the lower resonating frequency at the intermediate strength of the applied MF. Another observation is that if the magnetic field is tilted from the z-direction, an additional peak appears between the two peaks. The position of the middle peak may be independent of the strength of the applied MF. In some cases, only one peak appears even in the presence of a magnetic field. We explain these observations considering the dynamics around the stable fixed point and determine the position of the peak in the spectrum for the rate constant as a function of the strength of the applied magnetic field. Thus the present study may find applications for tuning the conductivity of a solid electrolyte, which is very important in recent technology. Other applications may be in areas such as electromagnetic field-induced modulation of (a) thermally activated tunneling ionization, (b) thermally stimulated ionization, etc.
title Effect of an electromagnetic field on the barrier crossing rate
topic Statistical Mechanics
url https://arxiv.org/abs/2504.13528