Your search keyword '"Hantke, K."' showing total 3 results

1. Hole confinement in quantum islands in Ga(AsSb)/GaAs/(AlGa)As heterostructures.

Author

Horst, S., Chatterjee, S., Hantke, K., Klar, P. J., Nemeth, I., Stolz, W., Volz, K., Bückers, C., Thränhardt, A., Koch, S. W., Rühle, W., Johnson, S. R., Wang, J.-B., and Zhang, Y.-H.

Subjects

HETEROSTRUCTURES, TRANSMISSION electron microscopy, PHOTOLUMINESCENCE, LASERS, OPTICAL materials, DENSITY

Abstract

Formation of self-organized Ga(AsSb) quantum islands during growth is shown to occur in a series of Ga(AsSb)/GaAs/(AlGa)As heterostructures, resulting in an in-plane hole confinement of several hundred meV. The shape of the in-plane confinement potential is nearly parabolic and, thus, yields almost equidistant hole energy levels. Transmission electron microscopy reveals that the quantum islands are 100 nm in diameter and exhibit an in-plane variation of the Sb concentration of more than 30%. Up to seven bound hole states are observed in the photoluminescence spectra. Time-resolved photoluminescence data are shown as function of excitation density, lattice temperature, and excitation photon energy and reveal fast carrier capture into, and relaxation within, the quantum islands. The advantages of such structures as active laser material are discussed. [ABSTRACT FROM AUTHOR]

Published

2008

2. Dynamic behavior of 1040 nm semiconductor disk lasers on a nanosecond time scale.

Author

Diehl, W., Brick, P., Chatterjee, S., Horst, S., Hantke, K., Rühle, W. W., Stolz, W., Thränhardt, A., and Koch, S. W.

Subjects

DYNAMICS, NEAR infrared spectroscopy, SEMICONDUCTORS, LASERS, PHOTOLUMINESCENCE, REDSHIFT

Abstract

The nanosecond dynamics of near-infrared semiconductor disk lasers is investigated experimentally and theoretically. Lasing and photoluminescence following barrier pumping are analyzed. Their spectral and temporal features such as luminescence overshoot and clamping, delay of lasing onset, and redshift of the emission are explained by a rate equation model taking into account the microscopic gain and luminescence. [ABSTRACT FROM AUTHOR]

Published

2007

3. Carrier relaxation dynamics in annealed and hydrogenated (GaIn)(NAs)/GaAs quantum wells.

Author

Hantke, K., Heber, J. D., Chatterjee, S., Klar, P. J., Volz, K., Stolz, W., Rühle, W. W., Polimeni, A., and Capizzi, M.

Subjects

*GALLIUM arsenide, *QUANTUM wells, *ARSENIDES, *GALLIUM compounds, *ENERGY-band theory of solids, *POTENTIAL theory (Physics)

Abstract

We measured time-resolved photoluminescence on as-grown, annealed, as well as annealed and hydrogenated (Ga0.7In0.3)(N0.006As0.994)/GaAs quantum-well structures. The postgrowth treatment changes not only the photoluminescence decay time but also the intensity of photoluminescence directly after excitation. This initial luminescence intensity is determined by a competition between relaxation of electrons into nitrogen related potential fluctuations in the conduction band and their capture by deep traps. In contrast, the decay of the photoluminescence is mainly determined by the competition between radiative and nonradiative recombination, which are both influenced by localization. Annealing decreases localization effects and nonradiative recombination. Hydrogenation also reduces localization effects but increases nonradiative recombination. [ABSTRACT FROM AUTHOR]

Published

2005