Anomalous plasma diffusion transverse to high magnetic fields in InSb |
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Affiliation: | (1) Institut für Angewandte Physik II, Universit?t Heidelberg, D-6900 Heidelberg, Germany;(2) Present address: Brown, Boveri & Cie., Zentrales Forschungslabor, D-6900 Heidelberg |
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Abstract: | Investigations on the ambipolar diffusion of an electron-hole plasma transverse to a magnetic field have been carried out in InSb. A plasma layer, produced at the surface of the sample by a short laser pulse, was moved through the sample in crossed electric and magnetic fields by the Lorentz force. From the broadening of the plasma layer we found at 80K an enhanced diffusion coefficient which decreased proportional to 1/B for magnetic fields higher than 1T, constrary to the expected classical 1/B 2 dependence. Furthermore, the diffusion coefficient was strongly dependent on the electric field. The ambipolar drift velocity, measured simultaneously showed a classical behaviour. Together with the enhanced diffusion we observed instabilites in the electric potential. The instability threshold decreased towards the cathode. |
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Keywords: | 72.20 |
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