Quantifying the impact of phonon scattering on electrical and thermal transport in quantum dots
Goldozian, Bahareh; Kiršanskas, Gediminas; Damtie, Fikeraddis A.; Wacker, Andreas (2019-03). Quantifying the impact of phonon scattering on electrical and thermal transport in quantum dots. European Physical Journal: Special Topics, 227, (15-16), 1959 - 1967
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Published
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English
Authors:
Goldozian, Bahareh
;
Kiršanskas, Gediminas
;
Damtie, Fikeraddis A.
;
Wacker, Andreas
Department:
Mathematical Physics
NanoLund: Centre for Nanoscience
Project:
Quantum Cascade Lasers beyond general paradigms
Abstract:
We report the inclusion of phonon scattering to our recently established numerical package QmeQ for transport in quantum dot systems. This enables straightforward calculations for a large variety of devices. As examples we show (i) transport in a double-dot structure, where energy relaxation is crucial to match the energy difference between the levels, and (ii) the generation of electrical power by contacting cold electric contacts with quantum dot states, which are subjected to heated phonons.
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