A. G. Samoilovich scite author profile

The magnetic field dependence of the magnetoresistance in nondegenerate n-Ge is experimentally and theoretically investigated. The conductivity component connected with the impurity scattering (uiY) is selected. Its magnetic field dependence in quantizing magnetic field is in accordance with theory.Es wird die Abhangigkeit des Magnetowiderstandes vom Magnetfeld fur nichtentartetes, n-leitendes Ge experimentell und theoretisch untersucht. Die mit Storstellenstreuung verkniipfte Leitfahigkeitskomponente (ubg) wird getrennt bestimmt. Ihre Abhkngigkeit vom Magnetfeld im quantisierenden Magnetfeld befindet sich in Ubereinstimmung mit der Theorie.

Anisotropy of Thermomagnetic Effects in n‐Ge

Samoilovich

Buda

Dakhovskii

1967

A generalization of the theory of the anisotropic scattering of current carriers is proposed for the case of a phonon-drag effect. For two selected versions of phonon-phonon scattering theory it is possible to determine the nonequilibrium partition-function of the phonons. Calculations are made of the longitudinal and t.ransverse Nernst-Et.t.inghausen effects in n-Ge on t,he basis of anisot.ropic scattering and a phonon-drag effect.. The resu1t.s nre compared with experimental data [I], and it is found t,hat the present theory agrces well with experiment.Eine Verallgemeinerung der Theorie der anisotropen Streuung von Strorntragern wird fiir den Fall eines Phonondrag-Effekts vorgeschlagen. Fur zwei ausgewahlte Darstellungen der Phonon-Phonon-Streuungstheorie ist es moglich, die Kichtgleichgewichtsverteililngsfiinktion der Phononen zu bestimmen. Berechnungen des longitudinalen und transversalen Nernst-Ettinghauseneffektes in n-leitendem Ge werden auf der Basis einer anisotropen Streuung und eines Phonondrag-Effektes durchgefiihrt. Die Ergebnisse werden mit experirnentellen Daten [l] verglichen; es wird gefunden, dal3 die dargelegte Theorie gut mit dem Experiment iibereinstimrnt.

On the Theory of Anisotropic Thermoelectric power in Semiconductros

Samoilovich

Nitsovich

1966

Possible mechanisms for the appearance of an anisotropic thermoelectric power in semiconductors are examined using simple models. It is shown that an anisotropic thermoelectric power may arise both as a result of combined phonon and impurity scattering, and in the presence of two types of carriers if at least one type of carrier has an anisotropic effective mass. The effect of different parameters on the magnitude of the anisotropy in the thermoelectric power is examined and it is shown that for reasonable values of these parameters the anisotropy may be significant.

Galvanothermomagnetic effects in anisotropic media

Abanskii

Buda

Dakhovskii

et al. 1975

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Transverse Magnetoresistance of n‐Type Ge in Quantizing Magnetic Fields

Babich

Баранский

Korolyuk

et al. 1973