Structural transformation of near-equiatomic V-Ru compounds at high pressure

1 March 1975

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

Vol. 11 (5) , 1866-1869
https://doi.org/10.1103/physrevb.11.1866

Abstract

The structural transformation of near-equiatomic V-Ru compounds has been studied resistively under hydrostatic pressure up to ∼21 kbar. It is found to be suppressed by the application of pressure. The rate of suppression increases as the Ru content approaches the critical concentration for the occurrence of the transformation. A critical pressure of 14 ± 2 kbar is obtained for the stabilization of the cubic phase down to 0 K in a sample containing 46-at.% Ru. The results are interpreted as support for the suggestion that the enhanced superconductivity in this compound system is associated predominantly with the singular feature of its electron energy spectrum.

Keywords

This publication has 15 references indexed in Scilit:

Pressure-Enhanced Lattice Transformation in ${Nb}_{3}$ Sn Single Crystal
Physical Review Letters, 1974
Superconductivity and stability of near equiatomic V-Ru compounds at high pressure
Journal of Physics F: Metal Physics, 1974
Direct Observation of Enhanced Lattice Stability in $V_{3}$ Si under Hydrostatic Pressure
Physical Review Letters, 1974
Nuclear-Magnetic-Resonance Study of the Electronic Transition in Near-Equiatomic V-Ru Alloys
Physical Review B, 1973
Structural Instability, Anharmonicity, and High-Temperature Superconductivity in $A - 15$ -Structure Compounds
Physical Review B, 1972
Superconductivity at high pressure in the A15 compounds
Journal of Low Temperature Physics, 1972
Low-Temperature X-Ray Diffraction Studies of Near-Equiatomic VRu Alloys
Physical Review B, 1971
Electronic Transitions in Near-Equiatomic Vanadium-Ruthenium Alloys
Physical Review B, 1971
Multiple scattering justifies depth dependence of critical angles
Physics Letters A, 1971
Die Übergangstemperatur verschiedener Supraleiter zweiter Art unter hydrostatischem Druck
The European Physical Journal A, 1969