We introduce a design of an asymmetric metasurface composed of nanowires made of Germanium Antimony Tellurium. This metasurface exhibits quasi-bound states in the continuum modes. Employing a fully coupled optothermal model, we demonstrate that under brief and intense laser irradiation, the metasurface experiences spatially controlled crystallization, leading to an ultrafast dynamic shift in wavelength of the q-BIC, up to 350 nm. Remarkably, this effect occurs with pump intensities as low as 35 MW / cm2. Our proposed method showcases the ability to manipulate nanostructure responses using laser light, suggesting promising avenues for applications in dynamic optical modulation and beyond.

Exploiting quasi-Bound States in the Continuum for Laser-Induced Selective Crystallization in Metasurfaces

Gandolfi M.;Vincenti M. A.
2024-01-01

Abstract

We introduce a design of an asymmetric metasurface composed of nanowires made of Germanium Antimony Tellurium. This metasurface exhibits quasi-bound states in the continuum modes. Employing a fully coupled optothermal model, we demonstrate that under brief and intense laser irradiation, the metasurface experiences spatially controlled crystallization, leading to an ultrafast dynamic shift in wavelength of the q-BIC, up to 350 nm. Remarkably, this effect occurs with pump intensities as low as 35 MW / cm2. Our proposed method showcases the ability to manipulate nanostructure responses using laser light, suggesting promising avenues for applications in dynamic optical modulation and beyond.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11379/611827
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