Reduction of dark current density by five orders at high bias and enhanced multicolour photo response at low bias for quaternary alloy capped InGaAs/ GaAs QDIPs, when implanted with low-energy light (H-) ions

Defense, Security, and Sensing Pub Date : 2013-06-18 DOI:10.1117/12.2016299
A. Mandal, H. Ghadi, Goma Kumari K. C., A. Basu, N. Subrahmanyam, P. Singh, S. Chakrabarti
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Abstract

Considering the importance of In(Ga)As/GaAs QDIPs, a post-growth method had been developed for enhancing QDIP characteristics using low energy light ion (H-) implantation. Dark current density was reduced by about five orders for the implanted devices due to the reduction in field assisted tunneling process for dark current generation, even at a very high bias of operation. Stronger multicolor mid wavelength photo response (~5.6 µm) was achieved at a very low bias of operation for the implanted device.
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当注入低能光(H-)离子时,高偏压下InGaAs/ GaAs qdip的暗电流密度降低了5个数量级,并增强了低偏压下的多色光响应
考虑到In(Ga)As/GaAs QDIP的重要性,开发了一种利用低能光离子(H-)注入增强QDIP特性的后生长方法。即使在非常高的操作偏置下,由于减少了暗电流产生的场辅助隧道过程,植入装置的暗电流密度也降低了约5个数量级。在非常低的操作偏置下,植入装置获得了更强的多色中波长光响应(~5.6µm)。
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Defense, Security, and Sensing
Defense, Security, and Sensing
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