Oscillatory magnetostriction and the stress dependence of the Fermi surface of aluminum, indium, zinc, and magnesium
Identifieur interne : 000A34 ( Main/Exploration ); précédent : 000A33; suivant : 000A35Oscillatory magnetostriction and the stress dependence of the Fermi surface of aluminum, indium, zinc, and magnesium
Auteurs : RBID : ISTEX:10909_1974_Article_BF00655318.pdfAbstract
Oscillatory magnetostriction and de Haas-van Alphen measurements have been made in aluminum, indium, zinc, and magnesium between 1.3 and 4.2K and in magnetic fields up to 22 kOe. From these results we determined the stress dependence of several orbits on the third band Fermi surfaces of aluminum and indium and some orbits on the Fermi surfaces of zinc and magnesium. The experimental values are in agreement with the results of simple OPW (orthogonalized plane wave) calculations in which the stress dependence of the pseudopotential is obtained from the Heine-Abarenkov-Animalu form factor in a local screening approximation. We observed angular constancy in the stress dependence of the orbits, and a model is presented to account for this. We also discuss the possibility of stress-induced Lifshitz transitions, and show how the free-electron model should be used to predict changes in the Fermi surface under hydrostatic pressure and uniaxial stress.
DOI: 10.1007/BF00655318
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<author><name>R. S. Sorbello</name>
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<front><div type="abstract" xml:lang="eng">Oscillatory magnetostriction and de Haas-van Alphen measurements have been made in aluminum, indium, zinc, and magnesium between 1.3 and 4.2K and in magnetic fields up to 22 kOe. From these results we determined the stress dependence of several orbits on the third band Fermi surfaces of aluminum and indium and some orbits on the Fermi surfaces of zinc and magnesium. The experimental values are in agreement with the results of simple OPW (orthogonalized plane wave) calculations in which the stress dependence of the pseudopotential is obtained from the Heine-Abarenkov-Animalu form factor in a local screening approximation. We observed angular constancy in the stress dependence of the orbits, and a model is presented to account for this. We also discuss the possibility of stress-induced Lifshitz transitions, and show how the free-electron model should be used to predict changes in the Fermi surface under hydrostatic pressure and uniaxial stress.</div>
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<abstract lang="eng">Oscillatory magnetostriction and de Haas-van Alphen measurements have been made in aluminum, indium, zinc, and magnesium between 1.3 and 4.2K and in magnetic fields up to 22 kOe. From these results we determined the stress dependence of several orbits on the third band Fermi surfaces of aluminum and indium and some orbits on the Fermi surfaces of zinc and magnesium. The experimental values are in agreement with the results of simple OPW (orthogonalized plane wave) calculations in which the stress dependence of the pseudopotential is obtained from the Heine-Abarenkov-Animalu form factor in a local screening approximation. We observed angular constancy in the stress dependence of the orbits, and a model is presented to account for this. We also discuss the possibility of stress-induced Lifshitz transitions, and show how the free-electron model should be used to predict changes in the Fermi surface under hydrostatic pressure and uniaxial stress.</abstract>
<relatedItem type="series"><titleInfo type="abbreviated"><title>J Low Temp Phys</title>
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<titleInfo><title>Journal of Low Temperature Physics</title>
<partNumber>Year: 1974</partNumber>
<partNumber>Volume: 16</partNumber>
<partNumber>Number: 3-4</partNumber>
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<identifier type="issn">0022-2291</identifier>
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