Quantum topological phase transition at the microscopic level

Castelnovo, Claudio and Chamon, Claudio

(2008)

Castelnovo, Claudio and Chamon, Claudio (2008) Quantum topological phase transition at the microscopic level. Physical Review B, 77 (5).

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Abstract

We study a quantum phase transition between a phase which is topologically ordered and one which is not. We focus on a spin model, an extension of the toric code, for which we obtain the exact ground state for all values of the coupling constant that takes the system across the phase transition. We compute the entanglement and the topological entropy of the system as a function of this coupling constant and show that the topological entropy remains constant all the way up to the critical point and jumps to zero beyond it. Despite the jump in the topological entropy, the transition is second order as detected via local observables.

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This is a Submitted version
This version's date is: 2/2008
This item is not peer reviewed

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https://repository.royalholloway.ac.uk/items/fbdf220b-52d4-95d7-6138-efcb6775e23d/8/

Item TypeJournal Article
TitleQuantum topological phase transition at the microscopic level
AuthorsCastelnovo, Claudio
Chamon, Claudio
Uncontrolled KeywordsHALL STATES
DepartmentsFaculty of Science\Physics
Research Groups and Centres\Physics\Low Temperature Physics

Identifiers
doihttp://dx.doi.org/10.1103/PhysRevB.77.054433

Deposited by Research Information System (atira) on 22-Jul-2014 in Royal Holloway Research Online.Last modified on 22-Jul-2014

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