Overcomplete Bases for S = 1 Spin Liquids

Abstract

For a S=1 system with even number of spins, the product states of two-body singlets, called the singlet pair states (SPSs), are overcomplete bases for the Hilbert space of many-body singlets. If the system contains odd number of spins, a singlet state can be decomposed as a superposition of all of the following configurations, in each configuration three of the spins form a three-body singlet and the remaining form two-body singlet pairs. This indicates that a S=1 spin liquid is especially a resonating-valence bond state. Although this conclusion is no longer valid for SO(3) symmetric S>1 systems, it can be generalized to an integer spin-S system if it has an enlarged SO(2S+1) symmetry. Similar results can also be obtained for systems with SU(n) symmetry.