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- Title
Concentration dependence of the wings of a dipole-broadened magnetic resonance line in magnetically diluted lattices.
- Authors
Zobov, V.; Kucherov, M.
- Abstract
The singularities of the time autocorrelation functions (ACFs) of magnetically diluted spin systems with dipole-dipole interaction (DDI), which determine the high-frequency asymptotics of autocorrelation functions and the wings of a magnetic resonance line, are studied. Using the self-consistent fluctuating local field approximation, nonlinear equations are derived for autocorrelation functions averaged over the independent random arrangement of spins (magnetic atoms) in a diamagnetic lattice with different spin concentrations. The equations take into account the specificity of the dipole-dipole interaction. First, due to its axial symmetry in a strong static magnetic field, the autocorrelation functions of longitudinal and transverse spin components are described by different equations. Second, the long-range type of the dipole-dipole interaction is taken into account by separating contributions into the local field from distant and near spins. The recurrent equations are obtained for the expansion coefficients of autocorrelation functions in power series in time. From them, the numerical value of the coordinate of the nearest singularity of the autocorrelation function is found on the imaginary time axis, which is equal to the radius of convergence of these expansions. It is shown that in the strong dilution case, the logarithmic concentration dependence of the coordinate of the singularity is observed, which is caused by the presence of a cluster of near spins whose fraction is small but contribution to the modulation frequency is large. As an example a silicon crystal with different Si concentrations in magnetic fields directed along three crystallographic axes is considered.
- Subjects
DIPOLE moments; MAGNETIC resonance; DILUTION; AUTOCORRELATION (Statistics); DIPOLE-dipole interactions; SELF-consistent field theory
- Publication
Journal of Experimental & Theoretical Physics, 2017, Vol 124, Issue 1, p151
- ISSN
1063-7761
- Publication type
Academic Journal
- DOI
10.1134/S106377611615005X