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Chiral Condensate and Spectral Density at full five-loop and partial six-loop orders of Renormalization Group Optimized Perturbation

Published 31 Jan 2020 in hep-ph and hep-lat | (2001.11670v1)

Abstract: We reconsider our former determination of the chiral quark condensate $\langle \bar q q \rangle$ from the related QCD spectral density of the Euclidean Dirac operator, using our Renormalization Group Optimized Perturbation (RGOPT) approach. Thanks to the recently available {\em complete} five-loop QCD RG coefficients, and some other related four-loop results, we can extend our calculations exactly to $N4LO$ (five-loops) RGOPT, and partially to $N5LO$ (six-loops), the latter within a well-defined approximation accounting for all six-loop contents exactly predictable from five-loops RG properties. The RGOPT results overall show a very good stability and convergence, giving primarily the RG invariant condensate, $\langle \bar q q\rangle{1/3}_{RGI}(n_f=0) = -(0.840_{-0.016}{+0.020}) \bar\Lambda_0 $, $\langle\bar q q\rangle{1/3}_{RGI}(n_f=2) = -(0.781_{-0.009}{+0.019}) \bar\Lambda_2 $, $\langle\bar q q\rangle{1/3}_{RGI}(n_f=3) = -(0.751_{-.010}{+0.019}) \bar\Lambda_3 $, where $\bar\Lambda_{n_f}$ is the basic QCD scale in the \overline{MS} scheme for $n_f$ quark flavors, and the range spanned is our rather conservative estimated theoretical error. This leads {\it e.g.} to $ \langle\bar q q\rangle{1/3}_{n_f=3}(2\, {\rm GeV}) = -(273{+7}_{-4}\pm 13)$ MeV, using the latest $\bar\Lambda_3$ values giving the second uncertainties. We compare our results with some other recent determinations. As a by-product of our analysis we also provide complete five-loop and partial six-loop expressions of the perturbative QCD spectral density, that may be useful for other purposes.

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