Chiral Brownian heat pump

M. van den Broek; C. Van den Broeck

arXiv:0711.1758·cond-mat.stat-mech·March 31, 2008

Chiral Brownian heat pump

M. van den Broek, C. Van den Broeck

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TL;DR

This paper provides an exact analysis of a chiral Brownian motor functioning as a heat pump, predicting optimal operation frequencies and cooling rates for nanoscale devices.

Contribution

It introduces a precise analytical model for a chiral Brownian heat pump, enabling optimization of its performance at the nanoscale.

Findings

01

Optimal frequencies around kHz predicted

02

Cooling rates of femtojoules per second achieved

03

Exact analytical framework developed

Abstract

We present the exact analysis of a chiral Brownian motor and heat pump. Optimization of the construction predicts, for a nanoscale device, frequencies of the order of kHz and cooling rates of the order of femtojoule per second.

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