Revisiting thermoelectric transport across strongly correlated quantum dot: A Green's function equation of motion theory perspective
classification
❄️ cond-mat.mes-hall
cond-mat.str-el
keywords
functionthermoelectricgreentransportconductivityequationkondomotion
read the original abstract
Using Green's function equation of motion within Lacroix decoupling scheme, we examine the thermoelectric transport features of a strongly interacting quantum dot coupled between metallic leads. We demonstrate that a qualitative description of the thermoelectric transport in the Kondo regime requires a complete self-consistent treatment of Green's function. The linear thermoelectric properties, including electrical conductivity, thermal conductivity, thermopower, and figure of merit, are analyzed as a function of temperature ranging from Kondo to Coulomb blockade regime. The results presented here are qualitatively consistent with existing results obtained using different theoretical techniques.
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