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Dynamical symmetry of strongly light-driven electronic system in crystalline solids

Kohei Nagai, Kento Uchida, N. Yoshikawa, Takahiko Endo, Yasumitsu Miyata, Kōichiro Tanaka

2020Communications Physics18 citationsDOIOpen Access PDF

Abstract

Abstract The Floquet state, which is a periodically and intensely light-driven quantum state in solids, has been attracting attention as a novel state that is coherently controllable on an ultrafast time scale. An important issue has been to demonstrate experimentally novel electronic properties in the Floquet state. One technique is light scattering spectroscopy, which offers an important clue to clarifying the symmetries and energy structures of the states through symmetry analysis of the polarization selection rules. Here, we determine circular and linear polarization selection rules of light scattering in a mid-infrared-driven Floquet system in monolayer MoS 2 and provide a comprehensive understanding in terms of the “dynamical symmetry” of the Floquet state.

Topics & Concepts

Floquet theoryPhysicsPolarization (electrochemistry)Symmetry (geometry)ScatteringReflection symmetryLight scatteringCondensed matter physicsQuantum mechanicsChemistryNonlinear systemMathematicsPhysical chemistryGeometrySpectroscopy and Quantum Chemical StudiesLaser-Matter Interactions and ApplicationsAdvanced Chemical Physics Studies
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