Anomalous lattice dynamics in a sigma-Fe60V40 alloy: Mossbauer spectroscopic study
Stanislaw M. Dubiel, Jan Zukrowski

TL;DR
This study uses Mossbauer spectroscopy to analyze lattice dynamics in sigma-Fe60V40 alloy, revealing anomalous behavior linked to magnetic phases and significant magnetism influence on lattice vibrations.
Contribution
It provides new insights into the temperature-dependent lattice dynamics and anharmonic vibrations in a magnetic alloy, highlighting the impact of magnetism on lattice behavior.
Findings
Lower Debye temperatures in magnetic phases
Higher recoil-free fractions in magnetic phases
Identification of four vibrational regimes associated with magnetic states
Abstract
Lattice dynamics in a sigma-Fe60V40 compound, which shows a re-entrant magnetism and orders ferromagnetic ally at ca. 170K, was investigated with the Mossbauer spectroscopy in the temperature interval of 5-300 K. Two relevant spectral parameters viz. the average center shift, <CS>, and the relative recoil-free fraction, f/fo, were explored. The former yielded the Debye temperature, T_D1, and the mean-square velocity of vibration, <v^2>, while the latter T_D2 and the mean-square amplitude of vibrations, <x^2>. Significant differences in the lattice-dynamical behaviors in the magnetic and paramagnetic phases were revealed. In particular, the values of T_D were notably lower and those of f/fo greatly higher in the former. This anomalous result has likely its origin in a remarkably high inharmonic contribution to the vibrations found for the ground magnetic state (spin-glass). Especially…
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