InGaAs(P)/InP全光交换结构中的载流子传输

Proceedings of 8th International Conference on Indium Phosphide and Related Materials Pub Date : 1996-04-21 DOI:10.1109/ICIPRM.1996.492029

C. Knorr, U. Wilhelm, D. Ottenwlilder, E. Scholz, A. Hangleiter

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引用次数: 0

摘要

我们提出了一种特殊设计的SCMQW结构，其中空穴传输由一个额外的大异质势垒控制。该势垒通过测量MQW区域中载流子诱导的场变化来获得稳态逃逸时间。在77 K时，我们得到了在几个势垒上的孔提取时间的最小值。在200 K的温度下，测量到的时间常数低于我们的速率方程模型和半经典模型所预测的值，并且表现出更强的场依赖性。这可以解释为热辅助隧穿和光洞输运的贡献，两者都降低了有效势垒高度，并表现出更强的场依赖性。目前正在通过改变InP势垒的厚度和第四系材料的势垒高度来进一步研究输运时间。

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Carrier transport in an InGaAs(P)/InP all-optical switching structure

We presented a specially designed SCMQW structure, where hole transport is controlled by an additional large heterobarrier. This barrier gives access to steady state escape times by measuring the charge carrier induced field change in the MQW region. We get a minimum value for the hole extraction time over the barrier of several at 77 K. At a temperature of 200 K the measured time constants lie below the values, which our rate equation model and the semi-classical model predict, and show a stronger field dependence. This could be accounted for thermally assisted tunneling and contribution of light hole transport, which both reduce the effective barrier height and show a stronger field dependence. Further investigations of the transport times are currently in progress by changing the thickness of the InP barrier and the barrier height of the quaternary material.

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Proceedings of 8th International Conference on Indium Phosphide and Related Materials

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