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Twisted Eguchi-Kawai Reduced Chiral Models

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arxiv hep-th/0203155 v1 pith:XHBYPBA2 submitted 2002-03-18 hep-th hep-lat

Twisted Eguchi-Kawai Reduced Chiral Models

classification hep-th hep-lat
keywords betalarge-nchirallatticemodelmodelsequivalencelimit
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We study the twisted Eguchi-Kawai (TEK) reduction procedure for large-N unitary matrix lattice models. In particular, we consider the case of two-dimensional principal chiral models, and use numerical Monte Carlo (MC) simulations to check the conjectured equivalence of TEK reduced model and standard lattice model in the large-N limit. The MC results are compared with the large-N limit of lattice principal chiral models to verify the supposed equivalence. The consistency of the TEK reduction procedure is verified in the strong-coupling region, i.e. for $\beta<\beta_c$ where $\beta_c$ is the location of the large-N phase transition. On the other hand, in the weak-coupling regime $\beta>\beta_c$, relevant for the continuum limit, our MC results do not support the equivalence of the large-N limits of the lattice chiral model and the corresponding TEK reduction. The implications for the correspondence between TEK model and noncommutative field theory are also discussed.

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