Study of the Ds φ semileptonic decay with (2+1)-flavor lattice QCD
Abstract
We present a systematic lattice calculation of the Ds φ semileptonic decay using (2+1)-flavor Wilson-clover fermion configurations generated by the CLQCD collaboration. Seven gauge ensembles with different lattice spacings, from 0.052~fm to 0.105~fm, and different pion masses, from about 210~MeV to 320~MeV are utilized, enabling us to take both the continuum limit and physical pion mass extrapolation. The ratios of form factors are obtained to be rV=1.614(19) and r2=0.741(31), with the precision improved by up to an order of magnitude compared to previous lattice studies. The branching fractions are given as B(Dsφ ee)=2.493(66)stat(31)|Vcs|× 10-2 and B(Dsφμμ)=2.351(60)stat(29)|Vcs|× 10-2. The corresponding ratio of the branching fractions between the lepton μ and e is given by Rμ/e=0.9432(13), which provides essential theoretical support for future high-precision experimental tests of the lepton flavor universality. The CKM matrix element |Vcs| is also extracted to be 0.952(12)stat(23)PDG and 0.945(12)stat(24)PDG for the μ and e channels, respectively.
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