Soft-collinear effective theory and heavy-to-light currents beyond leading power

M. Beneke; A. P. Chapovsky; M. Diehl; Th Feldmann

doi:10.1016/S0550-3213(02)00687-9

Soft-collinear effective theory and heavy-to-light currents beyond leading power

M. Beneke, A. P. Chapovsky, M. Diehl, Th Feldmann

RWTH Aachen University

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

674 Scopus citations

Abstract

An important unresolved question in strong interaction physics concerns the parameterization of power-suppressed long-distance effects to hard processes that do not admit an operator product expansion (OPE). Recently Bauer et al. have developed an effective field theory framework that allows one to formulate the problem of soft-collinear factorization in terms of fields and operators. We extend the formulation of soft-collinear effective theory, previously worked out to leading order, to second order in a power series in the inverse of the hard scale. We give the effective Lagrangian and the expansion of "currents" that produce collinear particles in heavy quark decay. This is the first step towards a theory of power corrections to hard processes where the OPE cannot be used. We apply this framework to heavy-to-light meson transition form factors at large recoil energy.

Original language	English
Pages (from-to)	431-476
Number of pages	46
Journal	Nuclear Physics, Section B
Volume	643
Issue number	1-3
DOIs	https://doi.org/10.1016/S0550-3213(02)00687-9
State	Published - 4 Nov 2002
Externally published	Yes

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title = "Soft-collinear effective theory and heavy-to-light currents beyond leading power",

abstract = "An important unresolved question in strong interaction physics concerns the parameterization of power-suppressed long-distance effects to hard processes that do not admit an operator product expansion (OPE). Recently Bauer et al. have developed an effective field theory framework that allows one to formulate the problem of soft-collinear factorization in terms of fields and operators. We extend the formulation of soft-collinear effective theory, previously worked out to leading order, to second order in a power series in the inverse of the hard scale. We give the effective Lagrangian and the expansion of {"}currents{"} that produce collinear particles in heavy quark decay. This is the first step towards a theory of power corrections to hard processes where the OPE cannot be used. We apply this framework to heavy-to-light meson transition form factors at large recoil energy.",

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note = "Funding Information: M.B. thanks the Aspen Center of Physics for hospitality when this work was begun. The work of A.C. is supported in part by the Bundesministerium f{\"u}r Bildung und Forschung, Project 05 HT1PAB/2. ",

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T1 - Soft-collinear effective theory and heavy-to-light currents beyond leading power

AU - Beneke, M.

AU - Chapovsky, A. P.

AU - Diehl, M.

AU - Feldmann, Th

N1 - Funding Information: M.B. thanks the Aspen Center of Physics for hospitality when this work was begun. The work of A.C. is supported in part by the Bundesministerium für Bildung und Forschung, Project 05 HT1PAB/2.

PY - 2002/11/4

Y1 - 2002/11/4

N2 - An important unresolved question in strong interaction physics concerns the parameterization of power-suppressed long-distance effects to hard processes that do not admit an operator product expansion (OPE). Recently Bauer et al. have developed an effective field theory framework that allows one to formulate the problem of soft-collinear factorization in terms of fields and operators. We extend the formulation of soft-collinear effective theory, previously worked out to leading order, to second order in a power series in the inverse of the hard scale. We give the effective Lagrangian and the expansion of "currents" that produce collinear particles in heavy quark decay. This is the first step towards a theory of power corrections to hard processes where the OPE cannot be used. We apply this framework to heavy-to-light meson transition form factors at large recoil energy.

AB - An important unresolved question in strong interaction physics concerns the parameterization of power-suppressed long-distance effects to hard processes that do not admit an operator product expansion (OPE). Recently Bauer et al. have developed an effective field theory framework that allows one to formulate the problem of soft-collinear factorization in terms of fields and operators. We extend the formulation of soft-collinear effective theory, previously worked out to leading order, to second order in a power series in the inverse of the hard scale. We give the effective Lagrangian and the expansion of "currents" that produce collinear particles in heavy quark decay. This is the first step towards a theory of power corrections to hard processes where the OPE cannot be used. We apply this framework to heavy-to-light meson transition form factors at large recoil energy.

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DO - 10.1016/S0550-3213(02)00687-9

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VL - 643

SP - 431

EP - 476

JO - Nuclear Physics, Section B

JF - Nuclear Physics, Section B

IS - 1-3

ER -

Soft-collinear effective theory and heavy-to-light currents beyond leading power

Abstract

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