Transport coherence in a time-asymmetric rocked ratchet model

Abstract

We study the dynamics of an over damped Brownian particle in a saw tooth potential in the presence of a temporal asymmetric driving force. We observe that in the deterministic limit, the transport coherence, which is determined by a dimensionless quantity called Peclet number, Pe is quite high for larger spatial asymmetry in the ratchet potential. For all the regime of parameter space of this model, Pe follows the nature of current like Stokes efficiency. Diffusion as a function of amplitude of drive shows a minimum exactly at which the current shows a maximum. Unlike the previously studied models, the Pe as a function of temperature shows a peaking behavior and the coherence in transport decreases for high temperatures. In the nonadiabatic regime, the Pe as a function of amplitude of drive decreases and the peak gets broader as a result the transport becomes unreliable.