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The Anderson transition in QCD with N_f=2+1+1 twisted mass quarks: overlap analysis

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arxiv 1810.01130 v1 pith:MBD2ND6C submitted 2018-10-02 hep-lat

The Anderson transition in QCD with N_f=2+1+1 twisted mass quarks: overlap analysis

classification hep-lat
keywords transitionchiraledgelocalizationmobilitytemperatureandersoneigenmodes
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Chiral Random Matrix Theory has proven to describe the spectral properties of low temperature QCD very well. However, at temperatures above the chiral symmetry restoring transition it can not provide a global description. The level-spacing distribution in the lower part of the spectrum of the Dirac operator is Poisson-like. There the eigenmodes are localized in space-time and separated from the rest of the spectrum by a so-called mobility edge. In analogy to Anderson localization in condensed-matter systems with random disorder this has been called the QCD-Anderson transition. Here, we study the localization features of the low-lying eigenmodes of the massless overlap operator on configurations generated with $N_f=2+1+1$ twisted mass Wilson sea quarks and present results concerning the temperature dependence of the mobility edge and the mechanism of the quark-mode localization. We have used various methods to fix the spectral position of the delocalization transition and verify that the mobility edge extrapolates to zero at a temperature within the chiral transition region.

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