Journal article
Random matrix approach to three-dimensional QCD with a Chern-Simons term
T Kanazawa, M Kieburg, JJM Verbaarschot
Journal of High Energy Physics | SPRINGER | Published : 2019
Open access
Abstract
We propose a random matrix theory for QCD in three dimensions with a Chern-Simons term at level k which spontaneously breaks the flavor symmetry according to U(2Nf) → U(Nf + k)×U(Nf− k). This random matrix model is obtained by adding a complex part to the action for the k = 0 random matrix model. We derive the pattern of spontaneous symmetry breaking from the analytical solution of the model. Additionally, we obtain explicit analytical results for the spectral density and the spectral correlation func- tions for the Dirac operator at finite matrix dimension, that become complex. In the micro- scopic domain where the matrix size tends to infinity, they are expected to be universal, and give a..
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Awarded by U.S. DOE
Awarded by German research council (DFG)
Funding Acknowledgements
J.V. acknowledges partial support from U.S. DOE Grant No. DE-FAG-88FR40388, and M.K. acknowledges the support by the German research council (DFG) via the CRC 1283: "Taming uncertainty and profiting from randomness and low regularity in analysis, stochastics and their applications". Ideas related to this paper are also discussed in [93]. Zohar Komargodski is thanked for discussions and sharing a draft of the paper.