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Pion mass difference from vacuum polarization

High Energy Physics - Lattice 2008-11-26 v1 High Energy Physics - Phenomenology
Authors: JLQCD Collaboration , E. Shintani , H. Fukaya , S. Hashimoto , H. Matsufuru , J. Noaki , T. Onogi , N. Yamada
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Abstract

We calculate the electromagnetic contribution to the pion mass difference, Δmπ2=mπ+2mπ02\Delta m^2_\pi=m^2_{\pi^+}-m^2_{\pi^0}, in the chiral limit through the VVAAVV-AA type vacuum polarization using Das-Guralnik-Mathur-Low-Young (DGMLY) sum rule. The calculation is made with two-flavors of dynamical overlap fermions on a 163×3216^3\times 32 lattice at aa\sim0.12 fm. The exact chiral symmetry of the overlap fermion is essential to control the systematic error in the difference VVAAVV-AA. We obtain Δmπ2=1024(100)MeV2\Delta m_\pi^2 = 1024(100) {\rm MeV^2} combining the lattice data with the perturbative contribution in the high momentum region evaluated by the operator product expansion. By analyzing the momentum dependence of the vacuum polarization, we also obtain pion decay constant fπf_\pi and the low-energy constants L10rL_{10}^r in the chiral limit.

Keywords

chiral perturbation theory pion production

Cite

@article{arxiv.0710.0691,
  title  = {Pion mass difference from vacuum polarization},
  author = {JLQCD Collaboration and E. Shintani and H. Fukaya and S. Hashimoto and H. Matsufuru and J. Noaki and T. Onogi and N. Yamada},
  journal= {arXiv preprint arXiv:0710.0691},
  year   = {2008}
}

Comments

7 pages, 2 figures, talk (Hadron spectroscopy) presented at the XXV International Symposium on Lattice Field Theory, July 30 - August 4, 2007, Regensburg, Germany

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