Thermomagnetic Effects and Fermi-Surface Topology: Results in Metallic Tin at Low Temperatures

15 September 1969

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 185 (3) , 995-1002
https://doi.org/10.1103/physrev.185.995

Abstract

The adiabatic Nernst-Ettingshausen, thermoelectric, and thermal transverse-even coefficients are measured in magnetic fields to 3.3 T (33 kG) in the (001) rotation plane, and at temperatures between 1.2 and 4.2°K in metallic tin. The results demonstrate the effects of Fermi-surface topology on the Nernst-Ettingshausen coefficient. By assuming the validity of the Wiedemann-Franz law, the temperature and field dependences of the adiabatic thermomagnetic coefficients are predicted from a theory for the isothermal coefficients. These predictions are compared with experiment. Strong quantum oscillations in the thermoelectric power are discussed and compared with theory.

Keywords

This publication has 10 references indexed in Scilit:

A simple A.C. technique for galvanomagnetic and shubnikov-de haas measurements
Cryogenics, 1968
de Haas-van Alphen Effect and Fermi Surface of White Tin
Physical Review B, 1968
Magnetoresistance of Tin Over a Large Range of Magnetic Fields
Physical Review B, 1968
The Fermi surface of white tin
Physics Letters, 1966
Band Structure and Fermi Surface of White Tin
Physical Review B, 1966
Electron and Lattice Transport Phenomena in an Antimony Crystal at Liquid- ${He}^{4}$ Temperatures
Physical Review B, 1965
High-field galvanomagnetic properties of metals
Advances in Physics, 1964
The anisotropy of the thermoelectric power of tin at low temperatures
Physica, 1964
Electron Transport Phenomena in Zinc at Liquid-Helium Temperatures
Physical Review B, 1963
The fermi surface in white tin
Philosophical Magazine, 1960