Ultrafast coherent dynamics of impulsively excited inter-valence band polarizations in bulk GaAs

Markus Joschko; Michael Woerner; Thomas Elsaesser; Eberhard Binder; Tilmann Kuhn; R. Hey; H. Kostial; K. Ploog

doi:10.1364/RPDS.1998.RMD5

Radiative Processes and Dephasing in Semiconductors
OSA Trends in Optics and Photonics Series (Optica Publishing Group, 1998),
paper RMD5
•https://doi.org/10.1364/RPDS.1998.RMD5

Ultrafast coherent dynamics of impulsively excited inter-valence band polarizations in bulk GaAs

Markus Joschko, Michael Woerner, Thomas Elsaesser, Eberhard Binder, Tilmann Kuhn, R. Hey, H. Kostial, and K. Ploog

Radiative Processes and Dephasing in Semiconductors 1998

Coeur d' Alene, Idaho United States
ISBN: 1-55752-525-0

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M. Joschko, M. Woerner, T. Elsaesser, E. Binder, T. Kuhn, R. Hey, H. Kostial, and K. Ploog, "Ultrafast coherent dynamics of impulsively excited inter-valence band polarizations in bulk GaAs," in Radiative Processes and Dephasing in Semiconductors, D. Citrin, ed., Vol. 18 of OSA Trends in Optics and Photonics Series (Optica Publishing Group, 1998), paper RMD5.

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Abstract

Quantum coherence between heavy and light hole states of bulk GaAs is created via an impulsive excitation of the interband absorption continuum with 20 fs pulses. Free carrier quantum beats are observed on a 100 fs time scale by monitoring the interband transmission with weak spectrally dispersed probe pulses. Experiments on differently doped samples, with various excitation densities and excitation bandwidths give direct insight into the properties of coherent inter-valence band polarizations. Amplitude and phase of the oscillatory transmission changes show a strong dependence on the polarization of pump and probe pulses. Damping of the quantum beats involves both inhomogeneous broadening by the dispersion of heavy-light hole splittings in the optically coupled range and scattering processes. Theoretical calculations based on the semiconductor Bloch equations for a three band scheme account for the data.

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