Transport of Active Brownian Motors Driven by a Thermal Broadband Noise
Abstract
The transport properties of active Brownian particles driven by a thermal broadband noise are investigated. The effects of the noise correlation time and the bias on the diffusion and the mean velocity are discussed. It is found that the noise correlation time reduces the ballistic, while the bias enhances the ballistic. The mean velocity decreases as the correlation time increased while for large bias.
Keywords
Thermal broadband noise, Ballistic diffusion, Active brownian motors
DOI
10.12783/dtcse/ammms2018/27296
10.12783/dtcse/ammms2018/27296
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