作为低阈值和光稳定微激光器的胶体半导体量子阱超微粒

P. Alves, Gemma Quinn, M. Strain, E. G. Durmusoglu, M. Sharma, H. Demir, Paul R. Edwards, Robert W. Martin, M. D. Dawson, N. Laurand
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引用次数: 0

摘要

本研究介绍并比较了通过自下而上组装 II-VI 半导体胶体量子阱(CQWs)和量子点(CQDs)制造的微米级和球形超粒子(SP)激光器的激光性能。CQW 由 4 单层厚的 CdSe 内核和 8 单层厚的 CdxZn1-xS 外壳组成,标称尺寸为 14 × 15 × 4.2 nm,CQD 由直径为 6 nm 的 CdSxSe1-x/ZnS 组成。用 0.76 ns 脉冲激光(光斑大小:2.88 × 10-7 cm2)在 532 nm 波长对 SPs 进行光学表征,并在 620-670 nm 光谱范围内发光。结果表明,CQW SP 的激光阈值(0.1-0.3 nJ)比 CQD SP 的激光阈值(0.3-0.6 nJ)低两倍,使用恒定的 0.6 nJ 光泵浦能量进行的应力测试表明,CQW SP 比 CQD SP 能够承受更长时间的激光发射。在连续工作条件下,CQW 和 CQD SP 的激光发射半衰期分别为 τCQW SP ≈150 分钟和 τCQD SP ≈22 分钟。在 0.5 nJ 的光泵浦条件下,CQW SP 的半衰期进一步延长至 τQW ≈385 分钟。这些结果与文献中的结果相比毫不逊色,凸显了碲化镉基 CQW SPs 在激光应用中的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Colloidal Semiconductor Quantum Well Supraparticles as Low‐Threshold and Photostable Microlasers

Colloidal Semiconductor Quantum Well Supraparticles as Low‐Threshold and Photostable Microlasers
This study introduces and compares the lasing performance of micron‐sized and sphere‐shaped supraparticle (SP) lasers fabricated through bottom‐up assembly of II‐VI semiconductor colloidal quantum wells (CQWs) with their counterparts made of quantum dots (CQDs). CQWs consist of a 4‐monolayers thick CdSe core and an 8‐monolayers thick CdxZn1‐xS shell with a nominal size of 14 × 15 × 4.2 nm, and CQDs of CdSxSe1‐x/ZnS with 6 nm diameter. SPs are optically characterized with a 0.76 ns pulse laser (spot size: 2.88 × 10−7 cm2) at 532 nm, and emit in the 620–670 nm spectral range. Results show that CQW SPs have lasing thresholds twice as low (0.1–0.3 nJ) as CQD SPs (0.3–0.6 nJ), and stress tests using a constant 0.6 nJ optical pump energy demonstrate that CQW SPs withstand lasing emission for longer than CQD SPs. Lasing emission in CQW and CQD SPs under continuous operation yields half‐lives of τCQW SP ≈150 min and τCQD SP ≈22 min, respectively. The half‐life of CQW SPs is further extended to τQW ≈385 min when optically pumped at 0.5 nJ. Such results compare favorably to those in the literature and highlight the performance of CdSe‐based CQW SPs for laser applications.
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