Journal
PHYSICAL REVIEW D
Volume 79, Issue 3, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevD.79.034506
Keywords
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Funding
- DFG [436 RUS 113/739/ 0-2]
- RFBR-DFG [0602-04010]
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In the deconfinement phase of quenched SU(2) Yang-Mills theory the spectrum and localization properties of the eigenmodes of the overlap Dirac operator with antiperiodic boundary conditions are strongly dependent on the sign of the average Polyakov loop, < L >. For < L >> 0 a gap appears with only a few, highly localized topological zero and near-zero modes separated from the rest of the spectrum. Instead of a gap, for < L >< 0 a high spectral density of relatively delocalized near-zero modes is observed. In an ensemble of positive < L >, the same difference of the spectrum appears under a change of fermionic boundary conditions. We argue that this effect and other properties of near-zero modes can be explained through the asymmetric properties and the different abundance of dyons and antidyons-topological objects also known to appear, however, in a symmetric form, in the confinement phase at T < T-c as constituents of calorons with maximally nontrivial holonomy.
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