Topological susceptibility and QCD axion mass: QED and NNLO corrections View Full Text


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Article Info

DATE

2019-03

AUTHORS

Marco Gorghetto, Giovanni Villadoro

ABSTRACT

We improve the precision of the topological susceptibility of QCD, and therefore of the QCD axion mass, by including O(αem) and NNLO corrections in the chiral expansion, which amount to 0.65(21)% and -0.71(29)% respectively. Both corrections are one order of magnitude smaller than the known NLO ones, confirming the very good convergence of the chiral expansion and its reliability. Using the latest estimates for the light quark masses the current uncertainty is dominated by the one of the low-energy constant ℓ7. When combined with possible improvements on the light quark mass ratio and ℓ7 from lattice QCD, our computation could allow to determine the QCD axion mass with per-mille accuracy. More... »

PAGES

33

References to SciGraph publications

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URI

http://scigraph.springernature.com/pub.10.1007/jhep03(2019)033

DOI

http://dx.doi.org/10.1007/jhep03(2019)033

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1112609174


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    "description": "We improve the precision of the topological susceptibility of QCD, and therefore of the QCD axion mass, by including O(\u03b1em) and NNLO corrections in the chiral expansion, which amount to 0.65(21)% and -0.71(29)% respectively. Both corrections are one order of magnitude smaller than the known NLO ones, confirming the very good convergence of the chiral expansion and its reliability. Using the latest estimates for the light quark masses the current uncertainty is dominated by the one of the low-energy constant \u21137. When combined with possible improvements on the light quark mass ratio and \u21137 from lattice QCD, our computation could allow to determine the QCD axion mass with per-mille accuracy.", 
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