High-Temperature Spin Dynamics of GdP via Transient Nuclear Magnetic Resonance

6 September 1971

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

Vol. 27 (10), 641-644
https://doi.org/10.1103/physrevlett.27.641

Abstract

The magnetic field dependence of the longitudinal nuclear-spin relaxation time for

{}^{31}P

nuclei in paramagnetic GdP is shown to yield the Fourier transform of the sum of two electronic-spin correlation functions. This represents a new experimental technique for the study of paramagnetic spin dynamics. A reasonable fit to a theoretical spectrum is achieved, and the resulting exchange strength agrees with that deduced from the Curie-Weiss temperature.

Keywords

This publication has 7 references indexed in Scilit:

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Journal of Applied Physics, 1971
Theoretical and Experimental Spin-Relaxation Functions in Paramagnetic RbMnF3
Physical Review Letters, 1971
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Nuclear-Magnetic-Resonance Measurements in the Rare-Earth Group- $V A$ Intermetallic Compounds
Physical Review B, 1969
Sign of the Nearest-Neighbor Exchange Interaction and its Derivative in GdAs
Physical Review B, 1967
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