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Mechanism of barrier crossing dynamics in the presence of both time dependent and independent magnetic fields

In this paper we have presented the mechanism of the barrier crossing dynamics of a Brownian particle which is coupled to a thermal bath in the presence of both time independent and fluctuating magnetic fields. Here the following three aspects are important in addition to the role of the thermal bath on the barrier crossing dynamics. Magnetic field induced coupling may introduce a resonance like effect. Another role of the field is that enhancement of its strength reduces the frequency factor of the barrier crossing rate constant. Finally, the fluctuating magnetic field introduces an induced electric field which activates the Brownian particle to cross the energy barrier. As a result of interplay among these aspects versatile non-monotonic behavior may appear in the variation of the rate constant as a function of the strength of the time independent magnetic field.

preprint2021arXivOpen access
Shrabani MondalMousumi BiswasBidhan Chandra Bag
cond-mat.stat-mech
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Shrabani MondalMousumi BiswasBidhan Chandra Bag

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