期刊
PHYSICA B-CONDENSED MATTER
卷 644, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.physb.2022.414218
关键词
WSe 2 superlattice; Spin -dependent conductance; Rashba spin -orbit interaction; Valley and spin polarization
This study presents a theoretical investigation of the spin and valley dependent transport properties in a WSe2 superlattice with external Rashba spin-orbit interaction (ERSOI). The results demonstrate that the conductance, with and without spin flip, strongly relies on the ERSOI and exhibits oscillatory behavior with respect to the ERSOI strength. Furthermore, the magnitude of spin-dependent conductance can be controlled by the potential barrier height and number of superlattice barriers. The results also reveal an oscillatory evolution of the valley and spin polarization with respect to ERSOI strength and potential barrier height, indicating the potential use of a WSe2 superlattice for the design of novel valleytronic and spintronic devices.
We report a theoretical study of the spin and valley dependent transport properties in a WSe2 superlattice with external Rashba spin-orbit interaction (ERSOI). It is shown that the conductance with and without spin flip strongly depends on the ERSOI and has an oscillatory behavior with respect to ERSOI strength, thus WSe2 superlattice can act as a spin-converter. Also, the magnitude of spin-dependent conductance can be efficiently controlled by potential barrier height and number of superlattice barriers. Results show that the valley and spin polarization depend on the number of superlattice barriers and exhibit an oscillatory evolution versus ERSOI strength and potential barrier height. These results clarify that a WSe2 superlattice can be useful for the design of novel valleytronic and spintronic devices.
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