Magnetic behavior of Sm3+ in SmAsO4: an experimental and theoretical study

Samarium arsenate single crystals were grown by flux technique. The princip al susceptibilities (chi(parallel to) and chi(perpendicular to)) of the uni axial system were measured in the temperature range 300-13 K. The room temp erature anisotropy obtained from absolute measurements was checked by measu ring the anisotropy directly. The magnetic anisotropy is not appreciable; t he value of (Delta chi/chi(av)) at 300 K is only 0.024. Because of the slow rise of the susceptibilities (chi(parallel to) and chi(perpendicular to)) with the lowering of temperature the average susceptibility (chi(av)) canno t be accounted for by the Curie-Weiss law. The smooth variation of the susc eptibilities down to 13 K rules out any structural phase transition or symm etry breaking. An analysis of the observed results undertaken for the first time invoking crystal field (CF) theory based on the rare-earth site symme try D-2d provides a satisfactory explanation to the experimental results; o rdering effects of any consequence are absent. g-factors and the electronic heat capacity were computed theoretically. Various hyperfine properties, i ncluding the thermal variation of the Mossbauer spectra, were computed for both isotopes of Samarium (Sm-147 and Sm-149) in the light of the proposed CF. (C) 1999 Elsevier Science B.V. All rights reserved.