Quantum Coherence in an Exactly Solvable One-dimensional Model with Defects
Abstract
Using the Quantum Inverse Scattering Method we construct an integrable Heisenberg-XXZ-model, or equivalently a model for spinless fermions with nearest-neighbour interaction, with defects. Each defect involves three sites with a fine tuning between nearest-neighbour and next-nearest-neighbour terms. We investigate the finite size corrections to the ground state energy and its dependence on an external flux as a function of a parameter , characterizing the strength of the defects. For intermediate values of , both quantities become very small, although the ground state wavefunction remains extended.
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