NUCLEAR SPIN RELAXATION IN GASES AND LIQUIDS: III. MOMENTUM-DEPENDENT INTERACTIONS

1 January 1964

journal article
Published by Canadian Science Publishing in Canadian Journal of Physics

Vol. 42 (1) , 70-83
https://doi.org/10.1139/p64-006

Abstract

A momentum-dependent interaction has been used by Torrey to explain the Xe¹²⁹ nuclear spin relaxation measurements of Carr and co-workers. T₁ is calculated here for this interaction for gases and liquids using the constant-acceleration approximation. The gas results are in good agreement with Torrey's exact calculation for a gas of hard spheres, and have the advantage of being usable with more realistic interatomic potentials. The results for the liquid are in good agreement with experiment.

Keywords

This publication has 3 references indexed in Scilit:

NUCLEAR SPIN RELAXATION IN GASES AND LIQUIDS: II. MOLECULAR HYDROGEN
Canadian Journal of Physics, 1963
Chemical Shift and Relaxation of ${Xe}^{129}$ in Xenon Gas
Physical Review B, 1963
Nuclear Magnetic Resonance of ${Xe}^{129}$ in Natural Xenon
Physical Review B, 1961