Berry's phase for large spins in external fields
Abstract
It is shown that even for large spins J the fundamental difference between integer and half-integer spins persists. In a quasi-classical description this difference enters via Berry's connection. This general phenomenon is derived and illustrated for large spins confined to a plane by crystalline electric fields. Physical realizations are rare-earth Nickel Borocarbides. Magnetic moments for half-integer spin (Dy3+, J=15/2) and magnetic susceptibilities for integer spin (Ho3+, J=8) are calculated. Experiments are proposed to furnish evidence for the predicted fundamental difference.
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