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The electric current induced heat generation in a strongly interacting quantum dot in the Coulomb blockade regime

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arxiv 0905.4549 v1 pith:FHFSZL3B submitted 2009-05-28 cond-mat.mes-hall

The electric current induced heat generation in a strongly interacting quantum dot in the Coulomb blockade regime

classification cond-mat.mes-hall
keywords generationheatcurrentblockadecoulomblargesmallvery
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The heat generation by an electric current flowing through a quantum dot with the dot containing both electron-electron interaction and electron-phonon interaction, is studied. Using the non-equilibrium Keldysh Green's function method, the current-induced heat generation is obtained. We find that for a small phonon frequency, heat generation is proportional to the current. However, for a large phonon frequency, heat generation is in general qualitatively different from the current. It is non-monotonic with current and many unique and interesting behaviors emerge. The heat generation could be very large in the Coulomb blockade region, in which the current is very small due to the Coulomb blockade effect. On the other hand, in the resonant tunneling region, the heat generation is very small despite a large current, an ideal condition for device operation. In the curve of heat generation versus the bias, a negative differential of the heat generation is exhibited, although the current is always monotonously increasing with the bias voltage.

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