R. C. Lutz scite author profile

We have quantitatively measured the linear and the nonsaturable absorption as well as the absorption modulation and its recovery time in as-grown and annealed low-temperature (LT) GaAs. Correlation of the optical data with As antisite (AsGa) defect densities yields the absorption cross section and the saturation parameter of the dominant AsGa to the conduction-band defect transition. We show that this defect transition is mainly responsible for the large nonsaturable absorption in as-grown LT GaAs with fast recovery times. Reducing the AsGa density by annealing yields an optimized material with small nonsaturable absorption, high absorption modulation, and fast recovery times.

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Defect identification in GaAs grown at low temperatures by positron annihilation

Gebauer¹,

Börner

Krause‐Rehberg

et al. 2000

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We use positron annihilation to study vacancy defects in GaAs grown at low temperatures ͑LT-GaAs͒. The vacancies in as-grown LT-GaAs can be identified to be Ga monovacancies, V Ga , according to their positron lifetime and annihilation momentum distribution. The charge state of the vacancies is neutral. This is ascribed to the presence of positively charged As Ga ϩ antisite defects in vicinity to the vacancies. Theoretical calculations of the annihilation parameters show that this assignment is consistent with the data. The density of V Ga is related to the growth stoichiometry in LT-GaAs, i.e., it increases with the As/Ga beam equivalent pressure ͑BEP͒ and saturates at 2ϫ10 18 cm Ϫ3 for a BEPу20 and a low growth temperature of 200°C. Annealing at 600°C removes V Ga . Instead, larger vacancy agglomerates with a size of approximately four vacancies are found. It will be shown that these vacancy clusters are associated with the As precipitates formed during annealing.

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Improvement of molecular beam epitaxy-grown low-temperature GaAs through p doping with Be and C

Specht

Lutz

Zhao

et al. 1999

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Femtosecond nonlinear optics of low-temperature grown semiconductors

Siegner¹,

Haiml²,

Morier‐Genoud³

et al. 1999

Physica B: Condensed Matter

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Influence of localization on the optical properties of ordered(Al0.5Ga0.5)

et al. 2000

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R. C. Lutz

Optical nonlinearity in low-temperature-grown GaAs: Microscopic limitations and optimization strategies

Defect identification in GaAs grown at low temperatures by positron annihilation

Improvement of molecular beam epitaxy-grown low-temperature GaAs through p doping with Be and C

Femtosecond nonlinear optics of low-temperature grown semiconductors

Influence of localization on the optical properties of ordered(Al0.5Ga0.5)

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