Contrast in spin-valley polarization due to competing indirect transitions in few-layer WS2 and WSe2

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Samenvatting

Controlling the momentum of carriers in semiconductors, known as valley polarization, is a new resource for optoelectronics and information technologies. Materials exhibiting high polarization are needed for valley-based devices. Few-layer WS$_2$ shows a remarkable spin-valley polarization above 90%, even at room temperature. In stark contrast, polarization is absent for few-layer WSe$_2$ despite the expected material similarities. Here, we explain the origin of valley polarization in both materials due to the interplay between two indirect optical transitions. We show that the relative energy minima at the $\Lambda$- and K-valleys in the conduction band determine the spin-valley polarization of the K-K transition. Polarization appears as the energy of the K-valley rises above the $\Lambda$-valley as a function of temperature and number of layers. Our results advance the understanding of the high spin-valley polarization in WS$_2$. This insight will impact the design of both passive and tunable valleytronic devices operating at room temperature.
Originele taal-2Engels
TijdschriftarXiv
StatusGepubliceerd - 2 jun 2020

Bibliografische nota

22 pages, 6 figures, 2 tables

Trefwoorden

  • cond-mat.mes-hall
  • physics.optics

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