hermoelectric effects in normal metals and superconductors are usually very small due to the presence of electron-hole symmetry. Here, we show that superconducting junctions brought out of equilibrium manifest a sizable bipolar thermoelectric effect that stems from a strong violation of the detailed balance determined by the crucial role of the interactions at the mean-field level. To fully control the effect, we consider a thermally biased SIS′IS junction where the capacitance of the central S′ region is small enough to establish a Coulomb blockade regime. By exploiting charging effects we are able to tune the Seebeck voltage, the thermocurrent, and thereby the power output of this structure, via an external gate voltage. We then analyze the main figures of merit of bipolar thermoelectricity and we prospect for possible applications.
Bipolar thermoelectric superconducting single-electron transistor
De Simoni, Giorgio;Chirolli, Luca;Braggio, Alessandro
;Giazotto, Francesco
2024
Abstract
hermoelectric effects in normal metals and superconductors are usually very small due to the presence of electron-hole symmetry. Here, we show that superconducting junctions brought out of equilibrium manifest a sizable bipolar thermoelectric effect that stems from a strong violation of the detailed balance determined by the crucial role of the interactions at the mean-field level. To fully control the effect, we consider a thermally biased SIS′IS junction where the capacitance of the central S′ region is small enough to establish a Coulomb blockade regime. By exploiting charging effects we are able to tune the Seebeck voltage, the thermocurrent, and thereby the power output of this structure, via an external gate voltage. We then analyze the main figures of merit of bipolar thermoelectricity and we prospect for possible applications.File | Dimensione | Formato | |
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PhysRevResearch.6.L012022.pdf
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