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2000
Journal Article
Titel
Midbandgap electro-optic detection of Bloch oscillations
Alternative
Elektrooptische Detektion von Bloch-Oszillationen in der Bandlückenmitte
Abstract
Bloch oscillations excited in a biased GaAs/Al(x)Ga(1-x)As superlattice are investigated in a time-resolved two-color electro-optic detection scheme. The detection of resonantly excited Bloch oscillations is based on the Pockels effect probed at a wavelength in the center of the band gap. The observed birefringence is induced by the macroscopic polarization of the electronic wave packets relative to the localized holes. The off-resonant detection away from optical transitions directly monitors the spatial dynamics of the electrons in amplitude and phase. The dependence of the amplitudes of the Bloch oscillating electrons on the applied electric fields are in good agreement with the electron-hole dipole lengths calculated by a quantum-mechanical model.
Author(s)