Geza Toth
Published 2004-06-09, updated 2016-01-28Version 5
We construct entanglement witnesses using fundamental quantum operators of spin models which contain two-particle interactions and posses a certain symmetry. By choosing the Hamiltonian as such an operator, our method can be used for detecting entanglement by energy measurement. We apply this method to the cubic Heisenberg lattice model in a magnetic field, the XY model and other familiar spin systems. Our method is used to obtain a temperature bound for separable states for systems in thermal equilibrium. We also study the Bose-Hubbard model and relate its energy minimum for separable states to the minimum obtained from the Gutzwiller ansatz.
Comments: 5 pages including 3 figures, revtex4; some typos corrected
Journal: Physical Review A 71, 010301(R) (2005)
Volume of Separable States for Arbitrary $N$-dimensional System
Entanglement sharing with separable states
Preserving entanglement under decoherence and sandwiching all separable states
