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.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
