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Paper detail

Valley polarization fluctuations, bistability, and switching in two-dimensional semiconductors

We study theoretically nonlinear valley polarization dynamics of excitons in atom-thin semiconductors. The presence of significant polarization slows down valley relaxation due to an effective magnetic field resulting from exciton-exciton interactions. We address temporal dynamics of valley polarized excitons and study the steady states of the polarized exciton gas. We demonstrate bistability of the valley polarization where two steady states with low and high valley polarization are formed. We study the effects of fluctuations and noise in such system. We evaluate valley polarization autocorrelation functions and demonstrate that for a high-polarization regime the fluctuations are characterized by high amplitude and long relaxation time. We study the switching between the low- and high-valley polarized states caused by the noise in the system and demonstrate that the state with high valley polarization is preferential in a wide range of pumping rates.

preprint2022arXivOpen access
M. A. SeminaM. M. GlazovC. RobertL. LombezT. AmandX. Marie
cond-mat.mes-hallcond-mat.mtrl-scinlin.CD
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M. A. SeminaM. M. GlazovC. RobertL. LombezT. AmandX. Marie

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