Theory of Ultrasonic Spin Echoes

1 December 1973

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

Vol. 8 (11), 5156-5162
https://doi.org/10.1103/physrevb.8.5156

Abstract

A theory of ultrasonic spin echoes valid for arbitrary spin is presented. Semiclassical vector-model equations are constructed for components of the dipole and quadrupole moment tensors which are excited by ultrasonic pulses in analogy with the well-known Bloch equations. The echo amplitudes are found to depend on the wave number of the pulse, the crystal length, spin density, sound velocity, the density of the medium as well as the magnitude of the appropriate macroscopic dipole or quadrupole moment. Our numerical estimates for a number of physical systems indicate that ultrasonic-spin-echo experiments are feasible for a variety of nuclear and electronic spin systems.

Keywords

This publication has 7 references indexed in Scilit:

Ultrasonic Spin Echoes in Fe: MgO
Physical Review Letters, 1973
Ultrasonic Spin Echoes
Physical Review Letters, 1972
Nuclear Acoustic Resonance of ${Mn}^{55}$ in Antiferromagnetic RbMn $F_{3}$
Physical Review B, 1971
Determination of the Gradient-Elastic Tensors for $A^{III} B^{V}$ Compounds Using Nuclear Acoustic Resonance
Physical Review B, 1969
Effects of Diffusion on Free Precession in Nuclear Magnetic Resonance Experiments
Physical Review B, 1954
Spin Echoes
Physical Review B, 1950
Nuclear Induction Due to Free Larmor Precession
Physical Review B, 1950

Cited by 12 articles