激光阈值
全息术
光学
光电子学
连贯性(哲学赌博策略)
光子学
全息显示器
增益开关
材料科学
电介质
物理
激光器
梁(结构)
光子晶体
放大自发辐射
受激发射
辐射
空间相干性
自发辐射
纳米激光器
领域(数学)
激光束
作者
Ayesheh Bashiri,Aleksandr Vaskin,Muyi Yang,Katsuya Tanaka,Marijn Rikers,T. Pertsch,Isabelle Staude
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2026-05-29
卷期号:12 (22): eaea7345-eaea7345
标识
DOI:10.1126/sciadv.aea7345
摘要
Light-emitting metasurfaces provide a compact, integrated solution for simultaneous light generation and beam shaping, making them a promising candidate for advanced photonic applications. However, existing approaches for tailoring far-field emission patterns either operate in the spontaneous emission regime, where low coherence limits precise light control, or rely on passive holographic metasurfaces that shape externally supplied coherent (or partially coherent) illumination. Here, we present a light-emitting metasurface system with holographic lasing output, composed of a binary-structured metasurface integrated with a gain medium, that enables coherent light generation and precise beam shaping of the output lasing emission within a single device. Through our design approach, the device sustains robust lasing performance despite structural disorder introduced for holographic encoding. With a compact ultraflat footprint, low lasing threshold, and wide field of view, our system offers an exceptional platform for generating design-specified structured lasing emission, with notable potential for miniaturized optical systems.
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