Lasing Action from Quasi‐Propagating Modes

激光阈值 互易晶格 超材料 物理 光学 波长 材料科学 激光器 衍射 平移对称性 凝聚态物理
作者
Max J. H. Tan,Jeong‐Eun Park,Francisco Freire‐Fernández,Jun Guan,Xitlali G. Juarez,Teri W. Odom
出处
期刊:Advanced Materials [Wiley]
卷期号:34 (34): e2203999-e2203999 被引量:32
标识
DOI:10.1002/adma.202203999
摘要

Abstract Band edges at the high symmetry points in reciprocal space of periodic structures hold special interest in materials engineering for their high density of states. In optical metamaterials, standing waves found at these points have facilitated lasing, bound‐states‐in‐the‐continuum, and Bose–Einstein condensation. However, because high symmetry points by definition are localized, properties associated with them are limited to specific energies and wavevectors. Conversely, quasi‐propagating modes along the high symmetry directions are predicted to enable similar phenomena over a continuum of energies and wavevectors. Here, quasi‐propagating modes in 2D nanoparticle lattices are shown to support lasing action over a continuous range of wavelengths and symmetry‐determined directions from a single device. Using lead halide perovskite nanocrystal films as gain materials, lasing is achieved from waveguide‐surface lattice resonance (W‐SLR) modes that can be decomposed into propagating waves along high symmetry directions, and standing waves in the orthogonal direction that provide optical feedback. The characteristics of the lasing beams are analyzed using an analytical 3D model that describes diffracted light in 2D lattices. Demonstrations of lasing across different wavelengths and lattice designs highlight how quasi‐propagating modes offer possibilities to engineer chromatic multibeam emission important in hyperspectral 3D sensing, high‐bandwidth Li‐Fi communication, and laser projection displays.
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