Fischer Anna, Severs Millard Toby, Xiao Xiaofei, Raziman T V, Dranczewski Jakub, Schofield Ross C, Schmid Heinz, Moselund Kirsten, Sapienza Riccardo, Oulton Rupert F
Blackett Laboratory, Department of Physics, Imperial College London, London SW7 2AZ,U.K.
IBM Research Europe - Zürich, Säumerstrasse 4, 8803 Rüschlikon, Switzerland.
ACS Photonics. 2024 Sep 9;11(10):4316-4322. doi: 10.1021/acsphotonics.4c01236. eCollection 2024 Oct 16.
Surface lattice resonance (SLR) lasers, where the gain is supplied by a thin-film active material and the feedback comes from multiple scattering by plasmonic nanoparticles, have shown both low threshold lasing and tunability of the angular and spectral emission at room temperature. However, typically used materials such as organic dyes and QD films suffer from photodegradation, which hampers practical applications. Here, we demonstrate photostable single-mode lasing of SLR modes sustained in an epitaxial solid-state InP slab waveguide. The nanoparticle array is weakly coupled to the optical modes, which decreases the scattering losses and hence the experimental lasing threshold is as low as 94.99 ± 0.82 μJ cm pulse. The nanoparticle periodicity defines the lasing wavelength and enables tunable emission wavelengths over a 70 nm spectral range. Combining plasmonic nanoparticles with an epitaxial solid-state gain medium paves the way for large-area on-chip integrated SLR lasers for applications, including optical communication, optical computing, sensing, and LiDAR.
表面晶格共振(SLR)激光器,其增益由薄膜活性材料提供,反馈来自等离子体纳米颗粒的多次散射,在室温下已表现出低阈值激光发射以及角发射和光谱发射的可调谐性。然而,典型使用的材料如有机染料和量子点薄膜会遭受光降解,这阻碍了实际应用。在此,我们展示了在外延固态磷化铟平板波导中维持的SLR模式的光稳定单模激光发射。纳米颗粒阵列与光学模式弱耦合,这降低了散射损耗,因此实验激光阈值低至94.99±0.82μJ/cm脉冲。纳米颗粒的周期性定义了激光发射波长,并能在70nm光谱范围内实现可调谐发射波长。将等离子体纳米颗粒与外延固态增益介质相结合,为用于光通信、光学计算、传感和激光雷达等应用的大面积片上集成SLR激光器铺平了道路。
