4.6 Article

Electrical and thermal transport in a twisted heterostructure of transition metal dichalcogenide and CrI3 connected to a superconductor

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PHYSICAL REVIEW B
卷 106, 期 4, 页码 -

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AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.106.045406

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  1. Iran Science Elites Federation [M1400138]

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This study investigates the influence of twist angle and gate electric field on electric and thermal transport in TMDC/CrI3 structures. The spin-splitting of band structures due to spin-orbit interaction can be controlled, leading to significant effects. The property of Andreev reflection process highly depends on the spin valley polarized states due to spin-orbit coupling.
The broad tunability of the proximity exchange effect between transition-metal dichalcogenides (TMDCs) and chromium iodide (CrI3) heterostructures offers intriguing possibilities for the use of TMDCs in two-dimensional magnetoelectrics. In this work, the influence of the twist angle and the gate electric field on the electric and thermal transport in a TMDC/CrI3 junction is investigated using the Dirac-Bogoliubov-de Gennes equation. We show that significant amounts can be controlled by spin-splitting of band structures due to spin-orbit interaction, and that the exchange-splitting of bands arises from the proximity effect. The property of the Andreev reflection (AR) process is highly dependent on the spin valley polarized states due to spin-orbit coupling. Remarkably, perfect spin valley polarized AR is possible over a wide bias range by using a gate voltage to tune the local Fermi energy and varying the type of charge doping. The proposed structure with p-type doping is found to have larger spin valley polarized Andreev conductance and high thermal conductance. We further show that, depending on the TMDC material and chemical potential of the TMDC/CrI3 layer, twisting can lead to suppression or a significant increase in Andreev conductance as well as enhancement of thermal conductance for chemical potentials smaller than that of the superconducting regime.

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