Spectra and magnetic properties of large spins in external fields
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Spectra and magnetic properties of large spins J (e.g., spins possessed by ions or molecules), placed into a crystal electric field (CEF) of an arbitrary symmetry point group, are shown to change drastically when J changes by [Formula Presented] or [Formula Presented] At a fixed field symmetry and configuration of its N extrema situated at the p-fold symmetry axis, physical characteristics of the spin depend periodically on J with the period equal to p. The problem of the spectrum and eigenstates of the large spin J is equivalent to an analogous problem for a scalar charged particle confined to a sphere [Formula Presented] and placed into the magnetic field of the monopole with the charge J. This analogy, as well as the strong difference between close values of J, stems from the Berry phase occurring in the problem. For energies close to the extrema of the CEF, the problem can be formulated as Harpers equation on the sphere. The [Formula Presented]-dimensional space of states is split into smaller multiplets of classically degenerated states. These multiplets in turn are split into submultiplets of states transforming according to specific irreducible representations of the symmetry group determined by J and p. We classify possible configurations and corresponding spectra. Experimental realizations of large spins in a symmetric environment are proposed and physical effects observable in these systems are analyzed. 1999 The American Physical Society.
