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Large Nc volume reduction and chiral random matrix theory

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arxiv 1301.0029 v1 pith:FV6JGRLG submitted 2012-12-31 hep-lat

Large Nc volume reduction and chiral random matrix theory

classification hep-lat
keywords chiralsymmetrytheoryvolumeadjointchrmtlimitreduction
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Motivated by recent progress on the understanding of the Eguchi-Kawai (EK) volume equivalence and growing interest in conformal window, we simultaneously use the large-Nc volume reduction and Chiral Random Matrix Theory (chRMT) to study the chiral symmetry breaking of four dimensional SU(Nc) gauge theory with adjoint fermions in the large Nc limit. Although some cares are required because the chRMT limit and 't Hooft limit are not compatible in general, we show that the breakdown of the chiral symmetry can be detected in large-Nc gauge theories. As a first step, we mainly focus on the quenched approximation to establish the methodology. We first confirm that heavy adjoint fermions, introduced as the center symmetry preserver, work as expected and thanks to them the volume reduction holds. Using massless overlap fermion as a probe, we then calculate the low-lying Dirac spectrum for fermion in the adjoint representation to compare to that of chRMT, and find that chiral symmetry is indeed broken in the quenched theory.

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