Tunable Metasurface using thin film lithium-niobate in the telecom regime

Abstract: We demonstrate a tunable metasurface made of aluminum nanodisk array coated with ITO on a thin film of lithium niobate. A spectral resonant shift of few nanometers and modulation contrast of ~40% are observed.

“…Reconfigurable metasurfaces have attracted significant attention because they can dynamically modify the optical responses of meta-atoms or their surrounding materials to tune optical functions [22]. Such metasurfaces hold potential applications in various fields [23][24][25][26], and external stimuli like voltage [27,28], thermal control [29], or light pump [30], even brain waves [31] are used to control them. Graphene [32], carbon nanotube [33], Dirac semimetal [34], photosensitive silicon [35], and phase-change materials [17] are among the materials adopted to design reconfigurable metasurfaces for active control.…”

Multi-band tunable electromagnetically induced transparencies based on active metasurface with polarization-independent property

“…Reconfigurable metasurfaces have attracted significant attention because they can dynamically modify the optical responses of meta-atoms or their surrounding materials to tune optical functions [22]. Such metasurfaces hold potential applications in various fields [23][24][25][26], and external stimuli like voltage [27,28], thermal control [29], or light pump [30], even brain waves [31] are used to control them. Graphene [32], carbon nanotube [33], Dirac semimetal [34], photosensitive silicon [35], and phase-change materials [17] are among the materials adopted to design reconfigurable metasurfaces for active control.…”

Multi-band tunable electromagnetically induced transparencies based on active metasurface with polarization-independent property