Influence of the crystalline electric field on the heat capacity and resistivity of PrAl3

Abstract: Results of heat-capacity and resistivity measurements performed on PrAl3 between 1.5 and 300 K are utilized to reveal and characterize the influence of the crystalline electric field on the ground-state multiplet of Pr+3 in PrAl3. Also reported are the results of heat-capacity measurements on the isostructural nonmagnetic counterpart LaAl3 for which there are only vibrational and electronic contributions to Cp. Below 180 K, the excess heat capacity of PrAl3 over that of LaAl3 exhibits of Schottky-type thermal … Show more

“…The effects of the crystal field in paramagnets can be seen very well in the temperature dependence of the specific heat. For PrAl, the specific heat was studied by Mahoney et al [3]. Studies of the crystal field splitting in PrA1, by means of inelastic neutron scattering had been reported in [4, 51.…”

“…Crystal field contribution to the specific heat CCF of PrAl, in dependence on the temperature T. Experimental points were taken from[3]. The solid line was calculated with the crystal field parameters given inFig.…”

Crystal Field Levels of Pr³⁺ in PrAl₃ Studied by Inelastic Neutron Scattering

“…The effects of the crystal field in paramagnets can be seen very well in the temperature dependence of the specific heat. For PrAl, the specific heat was studied by Mahoney et al [3]. Studies of the crystal field splitting in PrA1, by means of inelastic neutron scattering had been reported in [4, 51.…”

“…Crystal field contribution to the specific heat CCF of PrAl, in dependence on the temperature T. Experimental points were taken from[3]. The solid line was calculated with the crystal field parameters given inFig.…”

Crystal Field Levels of Pr³⁺ in PrAl₃ Studied by Inelastic Neutron Scattering

Crystalline electric field effects in Pr(La, Y) Al₃

Transport Properties of the Intermetallic PrAl3