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Utility of Shockley–Read–Hall analysis to extract defect properties from semiconductor minority carrier lifetime data

Preston T. Webster, Rigo A. Carrasco, A. T. Newell, Julie V. Logan, Perry C. Grant, Diana Maestas, Christian P. Morath

2023Journal of Applied Physics28 citationsDOIOpen Access PDF

Abstract

The semiconductor minority carrier lifetime contains information about several important material properties, including Shockley–Read–Hall defect levels/concentrations and radiative/Auger recombination rates, and the complex relationships between these parameters produce a non-trivial temperature-dependence of the measured lifetime. It is tempting to fit temperature-dependent lifetime data to extract the properties of the Shockley–Read–Hall recombination centers; however, without a priori knowledge of the distribution of the Shockley–Read–Hall states across the bandgap, this fit problem is under-constrained in most circumstances. Shockley–Read–Hall lifetime data are not well-suited for the extraction of Shockley–Read–Hall defect levels but can be used effectively to extract minority carrier recombination lifetimes. The minority carrier recombination lifetime is observed at temperatures below 100 K in a Si-doped n-type InGaAs/InAsSb superlattice, and deviation from its expected temperature-dependence indicates that the capture cross section of the defect associated with Si-doping has an activation energy of 1.5 meV or a characteristic temperature of 17 K. This lower temperature regime is also preferrable for the analysis of the physics of defect introduction with displacement-damage-generating particle irradiation.

Topics & Concepts

Carrier lifetimeHall effectDopingSemiconductorCondensed matter physicsSuperlatticeMaterials scienceAuger effectRecombinationBand gapSemiconductor deviceOptoelectronicsAugerPhysicsAtomic physicsChemistrySiliconNanotechnologyElectrical resistivity and conductivityBiochemistryGeneLayer (electronics)Quantum mechanicsAdvanced Semiconductor Detectors and MaterialsSilicon and Solar Cell TechnologiesSemiconductor materials and interfaces
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