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Tunable optical anisotropy in epitaxial phase-change VO<sub>2</sub> thin films.


ABSTRACT: We theoretically and experimentally demonstrate a strong and tunable optical anisotropy in epitaxially-grown VO2 thin films. Using a combination of temperature-dependent X-ray diffraction, spectroscopic ellipsometry measurements and first-principle calculations, we reveal that these VO2 thin films present an ultra-large birefringence (Δn > 0.9). Furthermore, leveraging the insulator-to-metal transition of VO2, we demonstrate a dynamic reconfiguration of optical properties from birefringent to hyperbolic, which are two distinctive regimes of anisotropy. Such a naturally birefringent and dynamically switchable platform paves the way for multi-functional devices exploiting tunable anisotropy and hyperbolic dispersion.

SUBMITTER: John J 

PROVIDER: S-EPMC11501475 | biostudies-literature | 2022 Sep

REPOSITORIES: biostudies-literature

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Tunable optical anisotropy in epitaxial phase-change VO<sub>2</sub> thin films.

John Jimmy J   Slassi Amine A   Sun Jianing J   Sun Yifei Y   Bachelet Romain R   Pénuelas José J   Saint-Girons Guillaume G   Orobtchouk Régis R   Ramanathan Shriram S   Calzolari Arrigo A   Cueff Sébastien S  

Nanophotonics (Berlin, Germany) 20220601 17


We theoretically and experimentally demonstrate a strong and tunable optical anisotropy in epitaxially-grown VO<sub>2</sub> thin films. Using a combination of temperature-dependent X-ray diffraction, spectroscopic ellipsometry measurements and first-principle calculations, we reveal that these VO<sub>2</sub> thin films present an ultra-large birefringence (Δ<i>n</i> > 0.9). Furthermore, leveraging the insulator-to-metal transition of VO<sub>2</sub>, we demonstrate a dynamic reconfiguration of op  ...[more]

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