Intrinsic localized excitons in MoSe2/CrSBr heterostructures

Abstract

We present a comprehensive investigation of optical properties in MoSe2/CrSBr heterostructures, unveiling the presence of localized excitons represented by a new emission feature, X*. We demonstrate through temperature- and power-dependent photoluminescence spectroscopy that X* originates from excitons confined by intrinsic defects within the CrSBr layer. The valley polarization of X* and trion peaks displays opposite polarity under a magnetic field, which closely correlates with the magnetic order of CrSBr. This is attributed to spin-dependent charge transfer mechanisms across the heterointerface, supported by density functional theory calculations revealing a type-II band alignment and spin-polarized band structures. Furthermore, the strong in-plane anisotropy of CrSBr induces unique polarization-dependent responses in MoSe2 emissions. Our study highlights the crucial role of defects in shaping excitonic properties. It offers valuable insights into spectral-resolved proximity effects in van der Waals heterostructures between semiconductor and magnet, contributing to advancing spintronic and valleytronic devices.

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