Strain Effects on Auger-Meitner Recombination in Silicon
Kyle BushickEmmanouil Kioupakis
Kyle BushickEmmanouil Kioupakis
Sep 2023
0被引用
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摘要原文
We study the effects of compressive and tensile biaxial strain on direct and phonon-assisted Auger-Meitner recombination (AMR) in silicon using first-principles calculations. We find that the application of strain has a non-trivial effect on the AMR rate. For most AMR processes, the application of strain increases the AMR rate. However, the recombination rate for the AMR process involving two holes and one electron is suppressed by 38% under tensile strain. We further analyze the specific phonon contributions that mediate the phonon-assisted AMR mechanism, demonstrating the increased anisotropy under strain. Our results indicate that the application of tensile strain increases the lifetime of minority electron carriers in p-type silicon, and can be leveraged to improve the efficiency of silicon devices.
