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Direct measurement of the spatial displacement of Bloch-oscillating electrons in semiconductor superlattices

✍ Scribed by M. Sudzius; V.G. Lyssenko; G. Valusis; F. Löser; T. Hasche; M.M. Dignam; K. Köhler; K. Leo

Publisher
Elsevier Science
Year
1998
Tongue
English
Weight
98 KB
Volume
2
Category
Article
ISSN
1386-9477

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✦ Synopsis

We present a novel experimental technique which allows to precisely measure the spatial displacement of Blochoscillating electrons in semiconductor superlattices as a function of time: The dipole field caused by the motion of the electrons is traced by small shifts of the Wannier-Stark ladder states. The electron wave packet displacement can then be derived from these shifts with the excitation density as the only free parameter. Using this method, we show that the optically generated electron wave packets perform harmonic oscillations, as predicted by Zener for the semiclassical motion of electrons in 1934. The absolute amplitudes of the wave packets depend inversely on the static field and are close to the values expected from semiclassical theory.

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✍ Karl Leo; Joehen Feldmann; Jagdeep Shah; Gero von Plessen; Peter Thomas; Stefan 📂 Article 📅 1993 🏛 Elsevier Science 🌐 English ⚖ 206 KB

We investigate the dephasing dynamics in semiconductor superlattices using timeresolved four-wave mixing. The signals show a periodic modulation which can be related to Bloch oscillations in the superlattice miniband. The oscillation frequency is strongly dependent on the applied field, in agreement