Two-spin subsystem entanglement in spin 1/2 rings with long range interactions

Abstract

We consider the two-spin subsystem entanglement for eigenstates of the Hamiltonian \[ H= Σ1≤ j< k ≤ N (1rj,k)α σj· σk \] for a ring of N spins 1/2 with asssociated spin vector operator ( /2) σj for the j-th spin. Here rj,k is the chord-distance betwen sites j and k. The case α =2 corresponds to the solvable Haldane-Shastry model whose spectrum has very high degeneracies not present for α ≠ 2. Two spin subsystem entanglement shows high sensistivity and distinguishes α =2 from α ≠ 2. There is no entanglement beyond nearest neighbors for all eigenstates when α =2. Whereas for α ≠ 2 one has selective entanglement at any distance for eigenstates of sufficiently high energy in a certain interval of α which depends on the energy. The ground state (which is a singlet only for even N) does not have entanglement beyond nearest neighbors, and the nearest neighbor entanglement is virtually independent of the range of the interaction controlled by α.