Prospects for a lattice computation of rare kaon decay amplitudes. II.K -> [pi]vv- decays
Prospects for a lattice computation of rare kaon decay amplitudes. II.K -> [pi]vv- decays
The rare kaon decays K????¯ are strongly suppressed in the standard model and widely regarded as processes in which new phenomena, not predicted by the standard model, may be observed. Recognizing such new phenomena requires a precise standard model prediction for the branching ratio of K????¯ with controlled uncertainty for both short-distance and long-distance contributions. In this work we demonstrate the feasibility of lattice QCD calculation of the long-distance contribution to rare kaon decays with the emphasis on K+??+??¯. Our methodology covers the calculation of both W?W and Z-exchange diagrams. We discuss the estimation of the power-law, finite-volume corrections and two methods to consistently combine the long-distance contribution determined by the lattice methods outlined here with the short-distance parts that can be reliably determined using perturbation theory. It is a subsequent work of our first methodology paper on K???+??, where the focus was made on the ?-exchange diagrams.
1-23
Christ, Norman H.
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Feng, Xu
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Portelli, Antonin
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Sachrajda, Christopher T.
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Christ, Norman H.
8fdea364-b83b-4aef-8282-c02a48689d37
Feng, Xu
9c6e2a56-4165-447c-b246-71b0aea251b0
Portelli, Antonin
a2526d4a-144e-4095-802a-229cddb10f0f
Sachrajda, Christopher T.
3189c224-ec39-4562-96fa-2b3df5e78d54
Christ, Norman H., Feng, Xu, Portelli, Antonin and Sachrajda, Christopher T.
(2016)
Prospects for a lattice computation of rare kaon decay amplitudes. II.K -> [pi]vv- decays.
Physical Review D, 93 (11457), .
(doi:10.1103/PhysRevD.93.114517).
Abstract
The rare kaon decays K????¯ are strongly suppressed in the standard model and widely regarded as processes in which new phenomena, not predicted by the standard model, may be observed. Recognizing such new phenomena requires a precise standard model prediction for the branching ratio of K????¯ with controlled uncertainty for both short-distance and long-distance contributions. In this work we demonstrate the feasibility of lattice QCD calculation of the long-distance contribution to rare kaon decays with the emphasis on K+??+??¯. Our methodology covers the calculation of both W?W and Z-exchange diagrams. We discuss the estimation of the power-law, finite-volume corrections and two methods to consistently combine the long-distance contribution determined by the lattice methods outlined here with the short-distance parts that can be reliably determined using perturbation theory. It is a subsequent work of our first methodology paper on K???+??, where the focus was made on the ?-exchange diagrams.
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Accepted/In Press date: 23 May 2016
e-pub ahead of print date: 30 June 2016
Organisations:
Theoretical Partical Physics Group
Identifiers
Local EPrints ID: 401099
URI: http://eprints.soton.ac.uk/id/eprint/401099
ISSN: 1550-7998
PURE UUID: ec6819a7-e92f-4d4d-b866-361d5444b1ab
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Date deposited: 10 Oct 2016 14:27
Last modified: 15 Mar 2024 03:43
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Contributors
Author:
Norman H. Christ
Author:
Xu Feng
Author:
Antonin Portelli
Author:
Christopher T. Sachrajda
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