Open AccessElectron Transport Through Two Branch Interferometer with Rashba Spin Orbit Interaction
Author(s) -
M. T. Dhahir
Publication year - 2021
Publication title -
basra journal of science
Language(s) - English
Resource type - Journals
eISSN - 2664-8296
pISSN - 2664-8288
DOI - 10.29072/basjs.2021305
Subject(s) - physics , condensed matter physics , spin–orbit interaction , spin (aerodynamics) , interferometry , electron , quantum dot , conductance , orbit (dynamics) , rashba effect , thermoelectric effect , electron transport chain , quantum mechanics , ferromagnetism , spintronics , chemistry , biochemistry , engineering , thermodynamics , aerospace engineering
In this paper, a theoretical model for electron transport through two branch interferometer with one quantum dot in each of its arms has been considered. Both a magnetic flux applied on the circuit and the Rashba spin orbit interaction inside the two dots are taken into account, Rashba spin-orbit interaction contribution are exhibited obviously in the double quantum dots system for the thermoelectric effect, by varying the temperature of the leads , we calculate the conductance (G) and the thermopower (S).
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