Semileptonic W Decay to the B Meson with Lepton Pairs in Heavy Quark Effective Theory Factorization upto O(αs)

Abstract

Motivated by the study of heavy-light meson production within the framework of heavy quark effective theory (HQET) factorization, we extend the factorization formalism for a rather complicated process W+ B++- in the limit of a non-zero invariant squared-mass of dilepton, q2, at the lowest order in 1/mb up to O(αs). The purpose of the current study is to extend the HQET factorization formula for the W+ B++- process and subsequently compute the form factors for this channel up to next-to-leading-order corrections in αs. We explicitly show the amplitude of the W+ B++- process can also be factorized into a convolution between the perturbatively calculable hard-scattering kernel and the non-perturbative yet universal light-cone distribution amplitude (LCDA) defined in HQET. The validity of HQET factorization depends on the assumed scale hierarchy mW mb QCD. Within the HQET framework, we evaluate the form factors associated with the W+ → B++- process, providing insights into its phenomenology. In addition, we also perform an exploratory phenomenological study on W+ → B++- by employing an exponential model for the LCDAs for B+ meson. Our findings reveal that the branching ratio for W+ → B++- is below 10-10. Although the branching ratios are small, this channel in high luminosity LHC experiments may serve to further constraints the value of λB.

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