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自从第一台红宝石激光器发明以来, 研究人员将目光集中到激光这种普通光源达不到的强光上, 由此发现了非线性光学材料以及一系列丰富多彩的相关特性—饱和吸收、反饱和吸收和非线性折射等, 并将其运用到光电子器件、光开关器件和光通信当中. 同时, 随着工业生产对于器件集成度需求的提升, 以普通三维材料为基础的器件已经难以达到应用要求, 低维半导体器件的兴起将有望解决这个问题. 所以, 将非线性光学与低维半导体材料相结合是未来发展的重要趋势, 量子点、量子线激光器和放大器的涌现也印证了这一点. 本文通过对准零维量子点材料、准一维纳米线材料和二维纳米材料非线性光学前沿工作进行总结, 为今后的研究提供参考. 但是, 低维材料由于稳定性、填充比例较低等问题, 还需要进一步的研究以满足实用需求.Since the first ruby laser was invented, researchers have focused their attention on how to achieve a strong laser light source, which cannot be produced by the ordinary light sources. Since then, the rich and colorful characteristics of nonlinear optical materials have been discovered, such as the saturation absorption, reverse saturation absorption and nonlinear refraction. They are applied to optoelectronic devices, optical switching devices and optical communication. At the same time, with the increase of the requirements for device integration performance in industrial production, ordinary three-dimensional devices are difficult to meet the production requirements, and the advent of low-dimensional semiconductor devices effectively solves this problem. Therefore, the combination of nonlinear optics and low-dimensional semiconductor materials is a general trend. The emergence of quantum dots, quantum wire lasers, and amplifiers confirms this. In this paper, we summarize the frontier work on nonlinear optics by selecting several special low-dimensional structures and several materials, providing some references for future research. However, due to the fact that the instability and low filling ratio of low-dimensional materials remain to be improved, further relevant research is still required.
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Keywords:
- nonlinear optics/
- low-dimensional semiconductor/
- quantum dots/
- laser
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