2016
DOI: 10.1007/jhep05(2016)166
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Heavy-tailed chiral random matrix theory

Abstract: We study an unconventional chiral random matrix model with a heavy-tailed probabilistic weight. The model is shown to exhibit chiral symmetry breaking with no bilinear condensate, in analogy to the Stern phase of QCD. We solve the model analytically and obtain the microscopic spectral density and the smallest eigenvalue distribution for an arbitrary number of flavors and arbitrary quark masses. Exotic behaviors such as non-decoupling of heavy flavors and a power-law tail of the smallest eigenvalue distribution… Show more

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Cited by 5 publications
(9 citation statements)
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References 74 publications
(123 reference statements)
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“…As can be seen from Figure 4 for the quenched spectral density at k = 0, in contrast to the standard GUE, the oscillatory structure of the spectral density due to peaks of individual eigenvalues is not present even for small N . This feature was also seen in other one-parameter-reweighted ensembles [70,71]. We expect that this feature will carry over to three-dimensional QCD as well.…”
Section: When Additionally Shiftingsupporting
confidence: 57%
“…As can be seen from Figure 4 for the quenched spectral density at k = 0, in contrast to the standard GUE, the oscillatory structure of the spectral density due to peaks of individual eigenvalues is not present even for small N . This feature was also seen in other one-parameter-reweighted ensembles [70,71]. We expect that this feature will carry over to three-dimensional QCD as well.…”
Section: When Additionally Shiftingsupporting
confidence: 57%
“…However the qualitative difference between the present work and [7] must be underlined. The matrix model in [7] is heavy tailed, and has no explicit color structure in the Dirac operator. By contrast, the random matrices in this paper obey Gaussian distributions, and there is an explicit color structure in the Dirac operator (22).…”
Section: So(3)mentioning
confidence: 53%
“…This type of mass term also arises in a chiral RMT discussed in [7]. However the qualitative difference between the present work and [7] must be underlined.…”
Section: So(3)mentioning
confidence: 56%
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