Litcius/Paper detail

Engineering of Active and Passive Loss in High-Quality-Factor Vanadium Dioxide-Based BIC Metasurfaces

Andreas Aigner, Filip Ligmajer, Katarína Rovenská, Jakub Holobrádek, Beáta Idesová, Stefan A. Maier, Andreas Tittl, Leonardo de S. Menezes

2024Nano Letters19 citationsDOIOpen Access PDF

Abstract

Active functionalities of metasurfaces are of growing interest in nanophotonics. The main strategy employed to date is spectral resonance tuning affecting predominantly the far-field response. However, this barely influences other essential resonance properties like near-field enhancement, signal modulation, quality factor, and absorbance, which are all vital for numerous applications. Here we introduce an active metasurface approach that combines temperature-tunable losses in vanadium dioxide with far-field coupling tunable symmetry-protected bound states in the continuum. This method enables exceptional precision in independently controlling both radiative and nonradiative losses. Consequently, it allows for the adjustment of both the far-field response and, notably, the near-field characteristics like local field enhancement and absorbance. We experimentally demonstrate continuous tuning from under- through critical- to overcoupling, achieving quality factors of 200 and a relative switching contrast of 78%. Our research marks a significant step toward highly tunable metasurfaces, controlling both near- and far-field properties.

Topics & Concepts

Vanadium dioxideAbsorbanceField (mathematics)Materials scienceNear and far fieldRadiative transferQuality (philosophy)VanadiumResonance (particle physics)OptoelectronicsNanophotonicsOpticsPhysicsNanotechnologyAtomic physicsMathematicsQuantum mechanicsPure mathematicsMetallurgyThin filmMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface TechnologiesPlasmonic and Surface Plasmon Research
Engineering of Active and Passive Loss in High-Quality-Factor Vanadium Dioxide-Based BIC Metasurfaces | Litcius