Experimental linear-optics simulation of the ground state of an interacting quantum spin-ring
arXiv:1312.1102 · doi:10.1038/srep07184
Abstract
Critical phenomena involve a structural change in the correlations of its constituents. These features can be employed in quantum simulators to assess when a criticality occurred in medium-size systems, for which phase transitions are not captured by standard thermodynamical methods. Here we demonstrate these concepts in a photonic quantum simulator: we encode the wavefunction of the ground state of a three-spin Ising ring by using a pair of entangled photons. The effect of a simulated magnetic field, leading to a critical modification of the correlation within the ring, is analysed by studying two- and three-spin entanglement. In particular, we make a quantitative connection between the violation of Svetlichny's inequality to the amount of three-tangle and tripartite negativity in our ring.
7 pages, 4 figures