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Control of Chirality and Directionality of Nonlinear Metasurface Light Source via Moiré Engineering

Huanyu Zhou, Xueqi Ni, Beicheng Lou, Shanhui Fan, Yuan Cao, Haoning Tang

2025Physical Review Letters26 citationsDOI

Abstract

Metasurfaces have revolutionized nonlinear and quantum light manipulation in the past decade, enabling the design of materials that can tune polarization, frequency, and direction of light simultaneously. However, tuning of metasurfaces is traditionally achieved by changing their microscopic structure, which does not allow in situ tuning and dynamic optimization of the metasurfaces. In this Letter, we explore the concept of twisted bilayer and tetralayer nonlinear metasurfaces, which offer rich tunability in its effective nonlinear susceptibilities. Using gold-based metasurfaces, we demonstrate that a number of different singularities of nonlinear susceptibilities can exist in the parameter space of twist angle and interlayer gap between different twisted layers. At the singularities, reflected or transmitted light from the nonlinear process (such as second-harmonic generation) can either become circularly polarized (for C points), or entirely vanish (for V points). By further breaking symmetries of the system, we can independently tune all aspects of the reflected and transmitted nonlinear emission, achieving unidirectional emission with full-Poincaré polarization tunability, a dark state (V-V point), or any other bidirectional output. Our work paves the way for multidimensional control of polarization and directionality in nonlinear light sources, opening new avenues in ultrafast optics, optical communication, sensing, and quantum optics.

Topics & Concepts

Moiré patternDirectionalityChirality (physics)Nonlinear systemOpticsPhysicsMaterials scienceCondensed matter physicsQuantum mechanicsGeneticsQuarkBiologyNambu–Jona-Lasinio modelChiral symmetry breakingMetamaterials and Metasurfaces ApplicationsPhotonic and Optical DevicesPhotonic Crystals and Applications
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