Calculation of nonleptonic kaon decay amplitudes from K→π matrix elements in quenched domain-wall QCD

Physical Review D Volume 68 Issue 1 Page 014501- published_at 2003-07

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Title ( eng )	Calculation of nonleptonic kaon decay amplitudes from K→π matrix elements in quenched domain-wall QCD
Creator	Noaki J. Aoki S. Aoki Y. Burkhalter R. Ejiri S. Fukugita M. Hashimoto S. Ishizuka N. Iwasaki Y. Izubuchi T. Kanaya K. Kaneko T. Kuramashi Y. Lesk V. Nagai K.I. Okawa Masanori Taniguchi Y. Ukawa A. Yoshie T. CP-PACS Collaboration
Source Title	Physical Review D
Volume	68
Issue	1
Start Page	014501
Abstract	We explore the application of the domain wall fermion formalism of lattice QCD to calculate the K→ππ decay amplitudes in terms of the K +→π+ and K0→0 hadronic matrix elements through relations derived in chiral perturbation theory. Numerical simulations are carried out in quenched QCD using the domain-wall fermion action for quarks and a renormalization group-improved gauge action for gluons on a 163×32×16 and 243×32×16 lattice at β=2.6 corresponding to the lattice spacing 1/a≈2 GeV. Quark loop contractions which appear in Penguin diagrams are calculated by the random noise method, and the ΔI=1/2 matrix elements which require subtractions with the quark loop contractions are obtained with a statistical accuracy of about 10%.0 We investigate the chiral properties required of the K +→π+ matrix elements. Matching the lattice matrix elements to those in the continuum at μ=1/a using the perturbative renormalization factor to one loop order, and running to the scale μ=m c=1.3 GeV with the renormalization group for Nf=3 flavors, we calculate all the matrix elements needed for the decay amplitudes. With these matrix elements, the ΔI=3/2 decay amplitude ReA2 shows a good agreement with experiment after an extrapolation to the chiral limit. The ΔI =1/2 amplitude ReA0, on the other hand, is about 50-600f the experimental one even after chiral extrapolation. In view of the insufficient enhancement of the ΔI=1/2 contribution, we employ the experimental values for the real parts of the decay amplitudes in our calculation of ε′/ε. The central values of our result indicate that the ΔI=3/2 contribution is larger than the ΔI=1/2 contribution so that ε′/ε is negative and has a magnitude of order 10 -4. We discuss in detail possible systematic uncertainties, which seem too large for a definite conclusion on the value of ε′/ε.
Keywords	lattice QCD domain-wall fermion action
NDC	Physics [ 420 ]
Language	eng
Resource Type	journal article
Publisher	American Physical Soceity
Date of Issued	2003-07
Rights	Copyright (c) 2003 American Physical Soceity
Publish Type	Version of Record
Access Rights	open access
Source Identifier	[ISSN] 1550-7998 [DOI] 10.1103/PhysRevD.68.014501 [DOI] http://dx.doi.org/10.1103/PhysRevD.68.014501