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Paper detail

Phase transitions induced by resonant light: a phenomenological approach

We present a phenomenological framework to describe a subclass of light-induced phase transitions (LIPTs) in condensed matter systems, specifically those mediated by the resonant generation of excitons. Our approach extends the classical Landau theory by introducing dynamic coupling between the system's order parameter and complex excitonic fields, along with Langevin-type forces that drive the system toward states of minimal free energy. The model is applied in the context of all-optical resonant magnetization switching in two-dimensional magnetic materials, particularly reproducing the experimental findings for reverse magnetization by all-optical means for a monolayer CrI$_3$. Our phenomenological model can be applied to other systems characterized by an order parameter and excitonic fields created through resonant light, offering versatility and potential to guide future experimental and theoretical studies in LIPT phenomena.

preprint2026arXivOpen access
A. KudlisL. S. RiccoH. SigurðssonI. A. Shelykh
cond-mat.mes-hall
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A. KudlisL. S. RiccoH. SigurðssonI. A. Shelykh

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