A. De Pasquale, P. Facchi
Published 2008-08-11Version 1
We exactly diagonalize the finite-size XY model with periodic boundary conditions and analytically determine the ground state energy. We show that there are two types of fermions: singles and pairs, whose dispersion relations have a completely arbitrary gauge-dependent sign. It follows that the ground state is determined by a competition between the vacuum states (with a suitable gauge) of two parity sectors. We finally exhibit some points in finite size systems that forerun criticality. They are associated to single Bogoliubov fermions and to the level crossings between physical and unphysical states. In the thermodynamic limit they approach the ground state and build up singularities at logarithmic rates.
Comments: 29 pages, 16 figures
Journal: Phys. Rev. A 80, 032102 (2009)
Disentanglement of two qubits coupled to an XY spin chain: Role of quantum phase transition
Effects of spontaneous symmetry break in the origin of non-analytic behavior of entanglement at quantum phase transitions
Scaling of genuine multiparticle entanglement at a quantum phase transition
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