Enhanced nonlocal power corrections to the B̄→Xsγ decay rate

Seung J. Lee; Matthias Neubert; Gil Paz

doi:10.1103/PhysRevD.75.114005

Enhanced nonlocal power corrections to the B̄→Xsγ decay rate

Seung J. Lee, Matthias Neubert, Gil Paz

Research output: Contribution to journal › Article › peer-review

58 Citations (Scopus)

Abstract

A new class of enhanced nonperturbative corrections to the inclusive B̄→Xsγ decay rate is identified, which contribute first at order Λ/mb in the heavy-quark expansion and cannot be described using a local operator product expansion. Instead, these effects are described in terms of hadronic matrix elements of nonlocal operators with component fields separated by lightlike distances. They contribute to the high-energy part of the photon-energy spectrum but do not reduce to local operators when an integral over energy is taken to obtain the total inclusive decay rate. The dominant corrections depend on the flavor of the B-meson spectator quark and are described by trilocal four-quark operators. Their contribution is estimated using the vacuum insertion approximation. The corresponding uncertainty in the total decay rate is found to be at the few percent level. This new effect accounts for the leading contribution to the rate difference between B- and B̄0 mesons.

Original language	English
Article number	114005
Journal	Physical Review D - Particles, Fields, Gravitation and Cosmology
Volume	75
Issue number	11
DOIs	https://doi.org/10.1103/PhysRevD.75.114005
Publication status	Published - 2007 Jun 14
Externally published	Yes

ASJC Scopus subject areas

Nuclear and High Energy Physics
Physics and Astronomy (miscellaneous)

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10.1103/PhysRevD.75.114005

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title = "Enhanced nonlocal power corrections to the {\=B}→Xsγ decay rate",

abstract = "A new class of enhanced nonperturbative corrections to the inclusive {\=B}→Xsγ decay rate is identified, which contribute first at order Λ/mb in the heavy-quark expansion and cannot be described using a local operator product expansion. Instead, these effects are described in terms of hadronic matrix elements of nonlocal operators with component fields separated by lightlike distances. They contribute to the high-energy part of the photon-energy spectrum but do not reduce to local operators when an integral over energy is taken to obtain the total inclusive decay rate. The dominant corrections depend on the flavor of the B-meson spectator quark and are described by trilocal four-quark operators. Their contribution is estimated using the vacuum insertion approximation. The corresponding uncertainty in the total decay rate is found to be at the few percent level. This new effect accounts for the leading contribution to the rate difference between B- and {\=B}0 mesons.",

author = "Lee, {Seung J.} and Matthias Neubert and Gil Paz",

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AU - Paz, Gil

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N2 - A new class of enhanced nonperturbative corrections to the inclusive B̄→Xsγ decay rate is identified, which contribute first at order Λ/mb in the heavy-quark expansion and cannot be described using a local operator product expansion. Instead, these effects are described in terms of hadronic matrix elements of nonlocal operators with component fields separated by lightlike distances. They contribute to the high-energy part of the photon-energy spectrum but do not reduce to local operators when an integral over energy is taken to obtain the total inclusive decay rate. The dominant corrections depend on the flavor of the B-meson spectator quark and are described by trilocal four-quark operators. Their contribution is estimated using the vacuum insertion approximation. The corresponding uncertainty in the total decay rate is found to be at the few percent level. This new effect accounts for the leading contribution to the rate difference between B- and B̄0 mesons.

AB - A new class of enhanced nonperturbative corrections to the inclusive B̄→Xsγ decay rate is identified, which contribute first at order Λ/mb in the heavy-quark expansion and cannot be described using a local operator product expansion. Instead, these effects are described in terms of hadronic matrix elements of nonlocal operators with component fields separated by lightlike distances. They contribute to the high-energy part of the photon-energy spectrum but do not reduce to local operators when an integral over energy is taken to obtain the total inclusive decay rate. The dominant corrections depend on the flavor of the B-meson spectator quark and are described by trilocal four-quark operators. Their contribution is estimated using the vacuum insertion approximation. The corresponding uncertainty in the total decay rate is found to be at the few percent level. This new effect accounts for the leading contribution to the rate difference between B- and B̄0 mesons.

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Enhanced nonlocal power corrections to the B̄→Xsγ decay rate

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