Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2010-09-14
Phys.Rev.B82:195435,2010
Physics
Condensed Matter
Statistical Mechanics
12 pages including 3 figures; added some discussion and references; this is the published version
Scientific paper
We study a one-dimensional version of the Kitaev model on a ring of size N, in which there is a spin S > 1/2 on each site and the Hamiltonian is J \sum_i S^x_i S^y_{i+1}. The cases where S is integer and half-odd-integer are qualitatively different. We show that there is a Z_2 valued conserved quantity W_n for each bond (n,n+1) of the system. For integer S, the Hilbert space can be decomposed into 2^N sectors, of unequal sizes. The number of states in most of the sectors grows as d^N, where d depends on the sector. The largest sector contains the ground state, and for this sector, for S=1, d =(\sqrt{5}+1)/2. We carry out exact diagonalization for small systems. The extrapolation of our results to large N indicates that the energy gap remains finite in this limit. In the ground state sector, the system can be mapped to a spin-1/2 model. We develop variational wave functions to study the lowest energy states in the ground state and other sectors. The first excited state of the system is the lowest energy state of a different sector and we estimate its excitation energy. We consider a more general Hamiltonian, adding a term \lambda \sum_n W_n, and show that this has gapless excitations in the range \lambda^c_1 \leq \lambda \leq \lambda^c_2. We use the variational wave functions to study how the ground state energy and the defect density vary near the two critical points \lambda^c_1 and \lambda^c_2.
Dhar Deepak
Ramola Kabir
Sen Diptiman
Shankar Raji
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