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Author: search.filters.author.Schweitzer, DieterInstitute: search.filters.UBSInstitut.Sonstige EinrichtungStart date: 1965End date: 1969

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Now showing 1 - 3 of 3
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    Energy relaxation and intervalley relaxation of hot electrons in n-type germanium
    (1966) Seeger, Karlheinz; Schweitzer, Dieter
    The average current density in n-type germanium subjected to superimposed strong ac and weak dc electric fields was both measured and calculated for frequencies of 9 and 35 GHz. Repopulation relaxation of the conduction band valleys and energy relaxation were taken into account. Experimental and theoretical result agree qualitatively.
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    The anisotropy of conductivity of n-type germanium in strong d.c. fields
    (1965) Schweitzer, Dieter; Seeger, Karlheinz
    The electric conductivity of n-type germanium at large d.c. field intensities has been measured in three directions of symmetry of the cubic lattice. From these data the repopulation of valleys of the conduction band has been determined. Measurements were done with three materials of different purity. The variation of repopulation between these materials can be explained qualitatively by the influence of Coulomb scattering at ionized impurities. The data are compared with those of Nathan and theoretical data of Franz and Reik et al. The relations of these data to those of the current component perpendicular to the field direction (Sasaki et al.) are also given.
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    Dynamic nuclear polarisation in p-doped silicon by microwave ultrasonics
    (1969) Hausser, Karl H.; Schweitzer, Dieter
    We have investigated the dynamic nuclear polarisation (DNP) of 29 Si nuclei in highly doped silicon single crystals. The saturation of the electronic Zeeman levels in a magnetic field of 3.3 kG at 1.6°K was obtained using microwave ultrasonics of about 9 GHz. The ultrasonic waves were generated in a cavity by means of a transducer consisting of a thin film of CdS evaporated on the polished surface of the silicon. Preliminary results obtained with a silicon-rod of 2 x 2 x 12 mm cut with the long axis parallel to the (110) direction rendered a reduction of the NMR signal to about ⅓ in agreement with the expected negative sign of the DNP.