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Wandering principal optical axes in van der Waals triclinic materials

Georgy A. Ermolaev, К. В. Воронин, Adilet N. Toksumakov, Dmitriy V. Grudinin, Ilia M. Fradkin, Arslan Mazitov, Aleksandr S. Slavich, Mikhail K. Tatmyshevskiy, Dmitry I. Yakubovsky, Valentin R. Solovey, Roman V. Kirtaev, Sergey M. Novikov, E. S. Zhukova, Ivan A. Kruglov, Andrey A. Vyshnevyy, Denis G. Baranov, Davit Ghazaryan, Aleksey V. Arsenin, L. Martı́n-Moreno, Valentyn S. Volkov, Kostya S. Novoselov

2024Nature Communications26 citationsDOIOpen Access PDF

Abstract

Nature is abundant in material platforms with anisotropic permittivities arising from symmetry reduction that feature a variety of extraordinary optical effects. Principal optical axes are essential characteristics for these effects that define light-matter interaction. Their orientation - an orthogonal Cartesian basis that diagonalizes the permittivity tensor, is often assumed stationary. Here, we show that the low-symmetry triclinic crystalline structure of van der Waals rhenium disulfide and rhenium diselenide is characterized by wandering principal optical axes in the space-wavelength domain with above π/2 degree of rotation for in-plane components. In turn, this leads to wavelength-switchable propagation directions of their waveguide modes. The physical origin of wandering principal optical axes is explained using a multi-exciton phenomenological model and ab initio calculations. We envision that the wandering principal optical axes of the investigated low-symmetry triclinic van der Waals crystals offer a platform for unexplored anisotropic phenomena and nanophotonic applications.

Topics & Concepts

Triclinic crystal systemPrincipal axis theoremvan der Waals forceAnisotropyPhysicsCondensed matter physicsSymmetry (geometry)Materials scienceMolecular physicsOpticsQuantum mechanicsGeometryMoleculeMathematics2D Materials and ApplicationsPerovskite Materials and ApplicationsMetamaterials and Metasurfaces Applications
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