Resistivity of Solid and Liquid Sodium

18 January 1965

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

Vol. 137 (2A) , A513-A522
https://doi.org/10.1103/physrev.137.a513

Abstract

This paper reports a theoretical study of the resistivity of solid and liquid sodium. It utilizes inelastic neutron scattering data to obtain the required information about the dynamics of the ions. The electron-phonon interaction is characterized by phase-shifts

η_{l}

, two of which are used as adjustable parameters. Although the calculation is believed to incorporate accurately many-body effects, umklapp processes, time-dependent effects, etc. agreement with experiment is disappointing. The calculated resistivity exceeds the experimentally measured values by a factor of the order of 2 at low temperatures, and above the melting point there are again discrepancies of this order. No convincing explanation of these disagreements has been found.

Keywords

This publication has 24 references indexed in Scilit:

Direct Calculation of Electronic Properties of Metals from Neutron Scattering Data
Physical Review B, 1964
Crystal Dynamics of Sodium at 90°K
Physical Review B, 1962
A theory of the electrical properties of liquid metals. I: The monovalent metals
Philosophical Magazine, 1961
Friedel Sum Rule for a System of Interacting Electrons
Physical Review B, 1961
Theory of Impurity Resistance in Metals
Physical Review B, 1960
Transport in Metals. II. Effect of the Phonon Spectrum and Umklapp Processes at High and Low Temperatures
Physical Review B, 1960
The electrical and thermal conductivities of monovalent metals
Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1954
Correlations in Space and Time and Born Approximation Scattering in Systems of Interacting Particles
Physical Review B, 1954
Conductivity of Monovalent Metals
Physical Review B, 1937
ber die Quantenmechanik der Elektronen in Kristallgittern
The European Physical Journal A, 1929