Tsomokos, Dimitris I., Osborne, Tobias J. and Castelnovo, Claudio (2011) Interplay of topological order and spin glassiness in the toric code under random magnetic fields. Physical Review B, 83 (7).
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We analyze the toric code model in the presence of quenched disorder, which is introduced via different types of random magnetic fields. In general, close to a quantum phase transition between a spin polarized phase and a topologically ordered one, we find that increasing the amount of disorder favors the topological phase. For some realizations of disorder, topological order can be robust against arbitrarily strong magnetic fields. In the case of the toric code in a random +/- h field, we show that the system exhibits a quantum phase transition to a spin-glass phase in an appropriate dual variables description. The survival of topological order in the spin-glass phase is directly related to the percolation properties of the rigid lattice in the Edwards-Anderson bimodal spin-glass model. According to recent numerical results for this model [ F. Roma et al., Phys. Rev. B 82, 214401 (2010)], it is likely that the rigid lattice does not percolate and, as a result, a new intermediate quantum phase appears in the random-field toric code. In this intermediate quantum phase, topological order coexists with spin glassiness.
This is a Submitted version This version's date is: 28/2/2011 This item is not peer reviewed
https://repository.royalholloway.ac.uk/items/f6e852e5-5194-b6e0-7fe9-a65f980afab6/3/
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