Interaction of infiltrated colloidal PbS nanocrystals with high Q/V silicon photonic bandgap nanocavities for near-infrared enhanced spontaneous emissions

机译：高Q / V硅光子带隙纳米覆盖近红外增强自发排放的渗透胶体PBS纳米晶纳米晶纳米晶的相互作用

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We study the interaction of silicon photonic crystal nanocavities with infiltrated colloidal PbS nanocrystals as a viable and efficient source for achieving indistinguishable and single photons. Nanocrystal-nanocavity coupling is predicted at near-infrared wavelengths, suggesting the possibility towards exciting silicon-based nanophotonic lasers, and novel efficient sources for fiber and silicon-based quantum information networks and systems. Two effective designs for nanocrystal-nanocavity coupling are illustrated that exhibit moderate to high cavity quality factors, and ultra-small modal volumes for spontaneous emission enhancements. It is shown that in principle our system can approach the observation of strong exciton-cavity coupling in a solid-state implementation at room temperature.

机译：我们研究硅光子晶体纳米凹陷与渗透胶体PBS纳米晶体的相互作用，作为可行和有效的源，用于实现难以区分和单一的光子。在近红外波长预测纳米晶体 - 纳米菌耦合，表明旨在激发基于硅的纳米光电激光器的可能性，以及用于光纤和基于硅的量子信息网络和系统的新型有效源。说明了纳米晶纳米菌耦合的两个有效设计，其表现出中度至高腔体质量因子，以及用于自发排放增强的超小型模态体积。结果表明，原则上，我们的系统可以在室温下在固态实施中观察强激子腔耦合。

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《Conference on Photonic Crystals and Photonic Crystal Fibers for Sensing Applications》|2005年||共6页
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Ranojoy Bose; Dmitri V. Talapin; Xiaodong Yang; Richard J. Harniman; Phung T. Nguyen; Chee Wei Wong;
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nanocrystal; photonic crystal; exciton; purcell effect; infiltration;

机译：纳米晶体;光子晶体;激子;斑效应;渗透;

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专利

1. Optical characterization of silicon on insulator photonic crystal nanocavities infiltrated with colloidal PbS quantum dots [J] . D. F. Dorfner, T. Huerlimann, G. Abstreiter, Applied Physics Letters . 2007,第23期

机译：胶体PbS量子点渗透的绝缘子光子晶体纳米腔上硅的光学表征
2. Weak coupling interactions of colloidal lead sulphide nanocrystals with silicon photonic crystal nanocavities near 1.55 μm at room temperature [J] . Ranojoy Bose, Xiaodong Yang, Rohit Chatterjee, Applied Physics Letters . 2007,第11期

机译：室温下胶态硫化铅纳米晶体与硅光子晶体纳米腔的弱耦合相互作用
3. Enhancement of room temperature sub-bandgap light emission from silicon photonic crystal nanocavity by Purcell effect [J] . Shakoor A., Lo Savio R., Portalupi S.L., Physica, B. Condensed Matter . 2012,第20期

机译：赛尔效应增强硅光子晶体纳米腔的室温亚带隙发光
4. Interaction of infiltrated colloidal PbS nanocrystals with high Q/V silicon photonic bandgap nanocav ities for near-infrared enhanced spontaneous emissions [C] . Ranojoy Bose, Dmitri V. Talapin, Xiaodong Yang, Photonic Crystals and Photonic Crystal Fibers for Sensing Applications . 2005

机译：渗透的胶体PbS纳米晶体与高Q / V硅光子带隙纳米腔的相互作用，用于近红外增强的自发发射
5. Mutual Interaction Induced Multi-Particle Physics in QED Systems: Cooperative Spontaneous Emission and Photonic Dimer Enhanced Two-Photon Excitation [D] . ?Zhou, Yao 2021

机译：QED系统中的相互相互作用诱导的多粒子物理：合作自发发射和光子二聚体增强了双光子励磁
6. Ultrafast spontaneous emission of copper-doped silicon enhanced by an optical nanocavity [O] . HISASHI SUMIKURA, EIICHI KURAMOCHI, HIDEAKI TANIYAMA, -1

机译：光学纳米腔增强了掺杂铜的硅的超快自发发射
7. Interaction of silicon photonic crystal nanocavities with colloidal lead sulphide nanocrystals for enhanced spontaneous emissions near 1550 nm at room temperature [O] . Bose, R, Chatterjee, R, Gao, J, 2006

机译：硅光子晶体纳米腔与胶体硫化铅纳米晶体的相互作用在室温下可增强1550 nm附近的自发发射

Interaction of infiltrated colloidal PbS nanocrystals with high Q/V silicon photonic bandgap nanocavities for near-infrared enhanced spontaneous emissions

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