1.5mm AlInGaAs MQW激光器的快速吸收恢复和波长转换

R. Green, M. Haji, L. Hou, G. Mezősi, R. Dylewicz, T. Kelly
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引用次数: 0

摘要

近年来,人们对工作在λ ~ 1.5»m波段的快速半导体可饱和吸收体的特性有了很高的兴趣。这些技术的应用包括制造被动锁模激光器[1]和通过交叉吸收调制实现光数据流的波长转换。为了使这些效果能够以最高的重复率使用,需要在可以方便地与光学增益元件集成的材料中实现非常快的吸收恢复时间。已经证明了几种实现极短吸收恢复时间的方法,例如在材料中包含高密度的晶体缺陷和使用子带间跃迁。然而,如果不使用昂贵且技术要求高的外延再生工艺,就不可能将这些元件与工作在同一波长的增益元件集成在一起。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fast absorption recovery and wavelength conversion in 1.5mm AlInGaAs MQW lasers
In recent years there has been a high level of interest in the properties of fast semiconductor saturable absorbers operating at λ ∼ 1.5»m. The applications for these include the fabrication of passively modelocked lasers[1] and wavelength conversion of optical data streams through cross-absorption modulation. To enable these effects to be utilised at the highest repetition rates, very fast absorption recovery times are required, in materials that can be conveniently integrated with optical gain elements. Several methods for achieving very short absorption recovery times have been demonstrated such as the inclusion of high densities of crystal defects in the material and the use of intersubband transitions. However, it is not possible to integrate these with gain elements operating at the same wavelength without the use of expensive and technologically demanding epitaxial regrowth processes.
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