Rotational States of Magnetic Molecules

Abstract

We study a magnetic molecule that exhibits spin tunneling and is free to rotate about its anisotropy axis. Exact low-energy eigenstates of the molecule that are superpositions of spin and rotational states are obtained. We show that parameter α = 2( S)2/(I) determines the ground state of the molecule. Here S is the spin, I is the moment of inertia, and is the tunnel splitting. The magnetic moment of the molecule is zero at α < αc = [1-1/(2S)2]-1 and non-zero at α > αc. At α ∞ the spin of the molecule localizes in one of the directions along the anisotropy axis.