Reversible quantum Brownian heat engines for electrons

2) ((1) University of New South Wales; Australia; (2) University of Oregon; H. Linke (1; R. Newbury (1); R.P. Taylor (2); T.E. Humphrey (1); USA)

arxiv: cond-mat/0201087 · v2 · submitted 2002-01-08 · ❄️ cond-mat.stat-mech · cond-mat.mes-hall

Reversible quantum Brownian heat engines for electrons

T.E. Humphrey (1) , R. Newbury (1) , R.P. Taylor (2) , H. Linke (1 , 2) ((1) University of New South Wales , Australia; (2) University of Oregon , USA) This is my paper

classification ❄️ cond-mat.stat-mech cond-mat.mes-hall

keywords heatenginesbrowniandifferentefficiencyelectronsenergyparticles

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Brownian heat engines use local temperature gradients in asymmetric potentials to move particles against an external force. The energy efficiency of such machines is generally limited by irreversible heat flow carried by particles that make contact with different heat baths. Here we show that, by using a suitably chosen energy filter, electrons can be transferred reversibly between reservoirs that have different temperatures and electrochemical potentials. We apply this result to propose heat engines based on mesoscopic semiconductor ratchets, which can quasistatically operate arbitrarily close to Carnot efficiency.

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Reversible quantum Brownian heat engines for electrons

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