Abstract
Magnetization and Mössbauer spectroscopic measurements are reported on five alloys in the series (Fe 1− x Co x ) 2P (corresponding to x=0.03, 0.10, 0.30, 0.50 and 0.70). All the five alloys are ferromagnetically ordered. With increasing cobalt, the Curie temperature initially increases becoming maximum for x=0.30 at 480 K and then drops. In going from x=0.10 to 0.30, when the crystalline symmetry changes from Fe 2P-like hexagonal one to Co 2P-like orthorhombic one, the magnetic moment on the pyramidal metallic site tilts off the V zz -axis. In all the compositions, substitution of cobalt reduces the internal magnetic field at the tetrahedral site whereas that at the pyramidal site shows little change. The system with x=0.03 exhibits temporal relaxation of magnetization over a long period of time. Mössbauer spectra of this alloy exhibit a reduction in linewidth with increasing temperature from 80 to 125 to 160 K. These observations are indicative of the existence of magnetic clusters.
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