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Quantum Catalysis of Magnetic Phase Transitions in a Quantum Simulator

arXiv:1303.6983 · doi:10.1103/PhysRevLett.111.100506

Abstract

We control quantum fluctuations to create the ground state magnetic phases of a classical Ising model with a tunable longitudinal magnetic field using a system of 6 to 10 atomic ion spins. Due to the long-range Ising interactions, the various ground state spin configurations are separated by multiple first-order phase transitions, which in our zero temperature system cannot be driven by thermal fluctuations. We instead use a transverse magnetic field as a quantum catalyst to observe the first steps of the complete fractal devil's staircase, which emerges in the thermodynamic limit and can be mapped to a large number of many-body and energy-optimization problems.

New data in Fig. 3, and much of the paper rewritten