Niedrigfeld Magnetowiderstand inhomogener Halbleiterschichten

Marc A Eberhard

Niedrigfeld Magnetowiderstand inhomogener Halbleiterschichten

Translated title of the contribution: Low-field magnetoresistance of inhomogeneous semiconductor layers

Marc A Eberhard

Research output: Thesis › Master's Thesis

Abstract

The resistance of semiconductor superlattices under weak magnetic fields is modelled with a classical approach. It is shown, that this is sufficient to explain the experimental features of these systems and that a quantum-mechanical approach will only be needed for significantly smaller lattice structures.

Translated title of the contribution	Low-field magnetoresistance of inhomogeneous semiconductor layers
Original language	German
Qualification	Master of Science
Awarding Institution
Award date	1 Mar 1996
Publication status	Published - Mar 1996

Keywords

resistance
semiconductor superlattices
weak magetic fields

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title = "Niedrigfeld Magnetowiderstand inhomogener Halbleiterschichten",

abstract = "The resistance of semiconductor superlattices under weak magnetic fields is modelled with a classical approach. It is shown, that this is sufficient to explain the experimental features of these systems and that a quantum-mechanical approach will only be needed for significantly smaller lattice structures.",

keywords = "resistance, semiconductor superlattices, weak magetic fields",

author = "Eberhard, {Marc A}",

year = "1996",

month = mar,

language = "German",

}

TY - THES

T1 - Niedrigfeld Magnetowiderstand inhomogener Halbleiterschichten

AU - Eberhard, Marc A

PY - 1996/3

Y1 - 1996/3

N2 - The resistance of semiconductor superlattices under weak magnetic fields is modelled with a classical approach. It is shown, that this is sufficient to explain the experimental features of these systems and that a quantum-mechanical approach will only be needed for significantly smaller lattice structures.

AB - The resistance of semiconductor superlattices under weak magnetic fields is modelled with a classical approach. It is shown, that this is sufficient to explain the experimental features of these systems and that a quantum-mechanical approach will only be needed for significantly smaller lattice structures.

KW - resistance

KW - semiconductor superlattices

KW - weak magetic fields

M3 - Master's Thesis

ER -