Single-ion anisotropy in the gadolinium pyrochlores studied by an electron paramagnetic resonance
arXiv:cond-mat/0507413 · doi:10.1103/PhysRevB.72.020409
Abstract
The electron paramagnetic resonance is used to measure the single-ion anisotropy of Gd3+ ions in the pyrochlore structure of (Y{1-x}Gdx)2Ti2O7. A rather strong easy-plane type anisotropy is found. The anisotropy constant D is comparable to the exchange integral J in the prototype Gd2Ti2O7, D~0.75J and exceeds the dipolar energy scale. Physical implications of an easy-plane anisotropy for a pyrochlore antiferromagnet are considered. We calculate the magnetization curves at T=0 and discuss phase transitions in magnetic field.
5 pages, accepted to PRB