Velocity auto correlation function of a confined Brownian particle

Noushad, Arsha; Shajahan, Shabina; Sahoo, Mamata

Velocity auto correlation function of a confined Brownian particle

Arsha Noushad, Shabina Shajahan and Mamata Sahoo ()
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Arsha Noushad: University of Kerala
Shabina Shajahan: University of Kerala
Mamata Sahoo: University of Kerala

The European Physical Journal B: Condensed Matter and Complex Systems, 2021, vol. 94, issue 10, 1-7

Abstract: Abstract Motivated by the simple models of molecular motor obeying a linear force-velocity relation, we have studied the stochastic dynamics of a Brownian particle in the presence of a linear velocity dependent force, $$f_s(1-\frac{v}{v_0})$$ f s ( 1 - v v 0 ) where $$f_{s}$$ f s is a constant. The position and velocity auto correlation functions in different situations of the dynamics are calculated exactly. We observed that the velocity auto correlation function shows an exponentially decaying behaviour with time and saturates to a constant value in the time asymptotic limit, for a fixed $$f_s$$ f s . It attains saturation faster with increase in the $$f_{s}$$ f s value. When the particle is confined in a harmonic well, the spectral density exhibits a symmetric behaviour and the corresponding velocity auto correlation function shows a damped oscillatory behaviour before decaying to zero in the long time limit. With viscous coefficient, a non-systematic variation of the velocity auto correlation function is observed. Further, in the presence of a sinusoidal driving force, the correlation in velocities increases with increase in the amplitude of driving in the transient regime. For the particle confined in a harmonic well, the correlation corresponding to the shift relative to the average position is basically the thermal contribution to the total position correlation. Moreover, in the athermal regime, the total correlation is entirely due to the velocity dependent force. Graphic abstract

Date: 2021
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DOI: 10.1140/epjb/s10051-021-00217-5

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