Magnetic brightening and its dynamics of defect-localized exciton emission in monolayer two-dimensional semiconductor

Yubei Xiang; Keisuke Shinokita; Kenji Watanabe; Takashi Taniguchi; Kazunari Matsuda

doi:10.1126/sciadv.adr5562

ジャーナル論文 Magnetic brightening and its dynamics of defect-localized exciton emission in monolayer two-dimensional semiconductor

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Yubei Xiang, Keisuke Shinokita, Kenji Watanabe, Takashi Taniguchi, Kazunari Matsuda. Magnetic brightening and its dynamics of defect-localized exciton emission in monolayer two-dimensional semiconductor. Science Advances. 2025, 11 (23), eadr5562. https://doi.org/10.1126/sciadv.adr5562

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(abstract)

Quantum light sources, especially single-photon emitters, are pivotal for advancing quantum technologies. Despite extensive studies, the emission from detects-localized excitons in monolayer WSe2 under external perturbations, such as magnetic fields, remains underexplored. Herein, we investigate the physical nature and dynamics of defect-localized excitons under in-plane magnetic fields using steady-state and time-resolved photoluminescence (PL) spectroscopy. Our observations reveal a sharp PL peak indicative of single-photon emission, comprising doublet peaks from excitons with hybridized spin states. Notably, magnetic brightening of the PL peak was detected in a small magnetic field below 1 T, and the dynamics of localized excitons in the hybridized states under magnetic fields show the field-induced mixing of two states, which determines the magnetic brightening phenomena. These insights pave the way for tunable single-photon emitters manipulated by external magnetic fields, heralding advances in quantum optics applications.

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