Effet d'une induction magnétique sur l'échauffement des porteurs dans InSb

Buchy, F.

doi:10.1002/pssb.19650100119

Cited by 5 publications

References 6 publications

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Hot Electron Magnetoconductivity in Polar Semiconductors

Licea

1970

Physica Status Solidi (b)

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An investigation is made of the magneto-conductivity of hot electrons in polar semiconductors with an arbitrary non-parabolicity of the spherically symmetric conduction band in the electron temperature approximation. Basing on these results the Hall effect, the relative resistivity change, and the Hall velocity in a polar semiconductor with a non-parabolic energy dispersion law like that of n-type InSb are studied theoretically considering only optical polar scattering and treating comparatively both non-parabolic and parabolic cases.Dans ce travail on analyse dans l'approximation de la temp6rature Blectronique la mag-nktoconductivit6 des Blectrons chauds dans les semiconducteurs iL bande d'6nergie sphBrique-sym6trique de non-parabolicit6 arbitraire. En partant d'ici on Btudie du point de vue thkorique l'effet Hall, la variation relative de la rBsistivitB et la vitesse Hall dans les semiconducteurs polaires iL loi de dispersion non-parabolique comme celle pour InSb de type n. Le problkme est trait6 en considkrant seulement les collisions des Blectrons avec les phonons optiques et on fait une comparaison entre les cas non-paraboliques et paraboliques.

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Hot Electron Magnetoconductivity in Polar Semiconductors

Licea

1970

Physica Status Solidi (b)

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Galvanomagnetic and Microwave Transport Coefficients of n‐InSb at 77 K

Nag

Dutta

1975

Physica Status Solidi (b)

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Transverse magnetoresistance, Hall factor, and microwave complex conductivity of n-InSb are studied for a lattice temperature of 77 OK using an iteration method to solve .the Boltzmann equat.ion. All t,he relevant scattering mechanisms, band non-parabolicity, a n d overlap integrals, and also the effects of electron screening have been included i n the analysis. Computed results are presented showing the variation of the coefficients with magnetic field and also for different microwave frequencies. Values of galvanomagnetic coefficients calculated with a n acoustic phonon deformation potential of about 20 eV are found to agree well with experiments. The microwave conductivity is also found t o agree with experiments t.0 within ten percent. Mit einer Iteratiommethode zur Losung der Boltzmanngleichung werden transversalerMagnetowiderstand, Hallfaktor und komplere Mikrowellenleitfiihigkeit von n-leitendem InSb bei einer Gittertemperahr ron 7 7 OK untersucht. Alle relevanten Streumechanis-"men, Nichtparabolizitat der Bander und Uberlappnngsintegrale, sowie die Eiuflusse der Elekfronenabschirmung werden in die Analyse einbezogen. Rechnungen werden angegeben, die die h d e r u n g der Koeffizienten im Mngnetfeld und fur verschiedene Mikrowellenfrequenzen zeigen. E s wird gefunden, daB die Wert.e der galvanomagnetischen Koeffizienten, die miteinem Deformationspotentiel von 20 eV fur akustische Phononen berechnet wurden, gut mit den Experimenten iibereinstimmen. Auch die Milrrowellenleitfahigkeit stimmt mit den Experimenten innerhalb von zehn Prozent ub-rein.

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II-V Compounds

Connolly

1972

Semiconductors

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Effet d'une induction magnétique sur l'échauffement des porteurs dans InSb

Cited by 5 publications

References 6 publications

Hot Electron Magnetoconductivity in Polar Semiconductors

Hot Electron Magnetoconductivity in Polar Semiconductors

Galvanomagnetic and Microwave Transport Coefficients of n‐InSb at 77 K

II-V Compounds

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