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Chiral orbital lasing in a twisted bilayer metasurface

Mingjin Wang, Ning Lv, Zixuan Zhang, Ye Chen, Jiahao Si, Jingxuan Chen, C. G. Tang, Xuefan Yin, Zhen Liu, Dongxu Xin, Zhaozheng Yi, Wanhua Zheng, Yuri Kivshar, Chao Peng

2026Nature Communications5 citationsDOIOpen Access PDF

Abstract

Chirality is a fundamental concept in physics, core to many phenomena in nonlinear optics, quantum physics and topological photonics. Photons are intrinsically chiral when carrying spin angular momentum, whereas orbital angular momentum can induce chirality when photons interact with structures with broken mirror symmetry. Here, we observe orbital chiral lasing from a twisted bilayer photonic structure, by leveraging its inherent structural chirality. We design and fabricate a Moiré-type optical structure consisting of two semiconductor membrane metasurfaces. By optically pumping the twisted bilayer, we achieve single-mode lasing over a broad spectral range of 250 nm. The lasing emission exhibits chiral orbital characteristics, arising from helical and non-Hermitian couplings between collective guided resonances rotating clockwise and counterclockwise and confirmed by polarization-resolved imaging and self-interference measurements. The observed chiral orbital lasing from a twisted photonic structure can contribute to diverse applications of chiral light in diagnostics, optical manipulation and communication with light.

Topics & Concepts

Lasing thresholdPhysicsPhotonPhotonicsAngular momentumChirality (physics)BilayerAzimuthal quantum numberOrbital angular momentum of lightOptoelectronicsCondensed matter physicsSpin (aerodynamics)Molecular physicsOptical phenomenaAtomic orbitalPhotonic crystalAngular momentum of lightQuantumOpticsTotal angular momentum quantum numberMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon ResearchOrbital Angular Momentum in Optics
Chiral orbital lasing in a twisted bilayer metasurface | Litcius