The electric field gradient in noncubic metals
- 1 January 1979
- journal article
- research article
- Published by American Physical Society (APS) in Reviews of Modern Physics
- Vol. 51 (1), 161-214
- https://doi.org/10.1103/revmodphys.51.161
Abstract
Electric field gradients present at the atomic nuclei in solids may be studied through the nuclear electric quadrupole interaction by several methods. In noncubic metallic systems, a large amount of data has become available and is critically testing our theoretical understanding of the sources of field gradients in these systems. After summarizing the relevant measurement techniques, we discuss the development of the existing experimental data base and the various theoretical approaches to explain it. Comprehensive coverage of the published literature extends through 1977.Keywords
This publication has 100 references indexed in Scilit:
- Quadrupole interaction and lattice location for Hg in BeHyperfine Interactions, 1978
- Quadrupole interaction of12B and12N in Be, Mg and ZnHyperfine Interactions, 1978
- Effects of impurity mass and concentration on the temperature behaviour of the EFG in Ag hostHyperfine Interactions, 1978
- Search for an isotopic mass effect on the quadrupole coupling constants in non-cubic metalsHyperfine Interactions, 1978
- Charge screening enhancement of quadrupole antishielding factorsHyperfine Interactions, 1978
- Lattice sums with screened potentialsHyperfine Interactions, 1978
- Effects of probe valence on the conduction-electron electric-field gradient in the non-cubic metalsHyperfine Interactions, 1978
- Theory of antishielding effects and temperature dependence of field-gradients in metalsHyperfine Interactions, 1978
- Theory of nuclear quadrupole interactions in ionic iron-group compounds?Role of antishielding effectsHyperfine Interactions, 1978
- Recent developments in the analysis of electric field gradients in metalsHyperfine Interactions, 1978