Transverse magnetoresistive effects in a quasi-one-dimensional electron system over superfluid helium

The transverse magnetoresistive effects in a nondegenerate quasi-one-dimensional (Q1D) electron system over superfluid helium have been investigated experimentally. The longitudinal magnetoresistance pxx have been measured in magnetic fields B up to 2.5 T in the temperature range 0.48-2 K. The width...

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Bibliographic Details
Published in:Journal of low temperature physics 2005, Vol.138 (1-2), p.439-444
Main Authors: NIKOLAENKO, V. A, KOVDRYA, Yu. Z, GLADCHENKO, S. P
Format: Article
Language:English
Subjects:
Condensed matter: structure, mechanical and thermal properties
Exact sciences and technology
Other topics in quantum fluids and solids
liquid and solid helium
Physics
Quantum fluids and solids
liquid and solid helium
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Summary:The transverse magnetoresistive effects in a nondegenerate quasi-one-dimensional (Q1D) electron system over superfluid helium have been investigated experimentally. The longitudinal magnetoresistance pxx have been measured in magnetic fields B up to 2.5 T in the temperature range 0.48-2 K. The width of conducting channels was 90 nm and 35 mum, the mean electron density varied from ~109 m-2 to 1.5x 1012 m-2. It has been shown that the value of rhoxx practically does not depend on B at low B and rhoxx ~ B in the quantum regime. The effective mobility of electrons in narrow channels increases under decreasing temperature and is determined by electron scattering by gas atoms, ripplons, and non-uniformities of the substrate. The mobility of electrons in wide channels increases with decreasing temperature and, below some temperatute Tm, decreases. The negative magnetoresistance has been observed in the gas- and ripplon-scattering region. This effect has been explained by weak localization of carriers caused by the interaction of electrons with gas atoms in vapor at high temperatures and with ripplons or with non-uniformities of the substrate at low temperatures.
ISSN:0022-2291
1573-7357
DOI:10.1007/s10909-005-1591-x