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- URN to cite this document:
- urn:nbn:de:bvb:355-epub-323027
- DOI to cite this document:
- 10.5283/epub.32302
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Abstract
Lattice simulations have demonstrated that a background (electro)magnetic field reduces the chiral/deconfinement transition temperature of quantum chromodynamics for eB < 1 GeV^2. On the level of observables, this reduction manifests itself in an enhancement of the Polyakov loop and in a suppression of the light quark condensates (inverse magnetic catalysis) in the transition region. In this ...

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