Electron and Proton Radiation Effects on Band Structure and Carrier Dynamics in MBE and MOCVD Grown III-V Test Structures

2018 18th European Conference on Radiation and Its Effects on Components and Systems (RADECS) Pub Date : 2018-09-01 DOI:10.1109/RADECS45761.2018.9328672

A. Hudson, A. Scofield, W. Lotshaw, S. Hubbard, M. Slocum, B. Liang, M. Debnath, B. Juang, D. Huffaker

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Abstract

As part of a study on radiation effects in optoelectronic materials, we exposed a series of AIGaAs/GaAs double heterostructures grown by molecular beam epitaxy and metalorganic chemical vapor deposition to electron and proton radiation. The active regions of the test articles were either p-, n-, or unintentionally doped. Steady state and time resolved photoluminescence spectroscopy were used to characterize radiation induced changes to the band structure and carrier dynamics. The effects of electron radiation on low temperature photoluminescence spectra and room temperature carrier dynamics varied with dopant type and density. Steady-state photoluminescence reveals distinct proton exposure effects for p-type materials grown by molecular beam epitaxy compared to n-type structures. Both the steady state and time resolved results suggest that n-type materials are more radiation hard to the effects of 1 MeV electrons than p-type materials.

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电子和质子辐射对MBE和MOCVD生长III-V测试结构能带结构和载流子动力学的影响

作为光电子材料辐射效应研究的一部分，我们将分子束外延和金属有机化学气相沉积制备的AIGaAs/GaAs双异质结构暴露在电子和质子辐射下。测试物品的活性区域要么是p-， n-或无意掺杂。稳态和时间分辨光致发光光谱用于表征辐射引起的能带结构和载流子动力学的变化。电子辐射对低温光致发光光谱和室温载流子动力学的影响随掺杂类型和密度的不同而不同。稳态光致发光表明，与n型结构相比，分子束外延生长的p型材料具有明显的质子暴露效应。稳态和时间分辨结果都表明，与p型材料相比，n型材料对1mev电子的辐射更强。

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2018 18th European Conference on Radiation and Its Effects on Components and Systems (RADECS)

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