Virtual photon emission in leptonic decays of charged pseudoscalar mesons
Virtual photon emission in leptonic decays of charged pseudoscalar mesons
We study the radiative leptonic decays P→ℓνℓℓ′+ℓ′-, where P is a pseudoscalar meson and ℓ and ℓ′ are charged leptons. In such decays the emitted photon is off-shell and, in addition to the "point-like"contribution in which the virtual photon is emitted either from the lepton or the meson treated as a point-like particle, four structure-dependent (SD) form factors contribute to the amplitude. We present a strategy for the extraction of the SD form factors and implement it in an exploratory lattice computation of the decay rates for the four channels of kaon decays (ℓ, ℓ′=e, μ). It is the SD form factors which describe the interaction between the virtual photon and the internal hadronic structure of the decaying meson, and in our procedure we separate the SD and point-like contributions to the amplitudes. We demonstrate that the form factors can be extracted with good precision and, in spite of the unphysical quark masses used in our simulation (mπ≃320 MeV and mK≃530 MeV), the results for the decay rates are in reasonable semiquantitative agreement with experimental data (for the channels where these exist). Following this preparatory work, the emphasis of our future work will be on obtaining results at physical quark masses and on the control of the systematic uncertainties associated with discretization and finite-volume errors.
hep-lat, hep-ph
Gagliardi, G.
fa872186-87a0-4e5d-bd7a-3d9eb28ce4a9
Lubicz, V.
8161bebb-280a-42e1-bba7-f445c9e2754e
Martinelli, G.
3949da7a-7efe-4ebd-b1f7-92f1ca150d66
Mazzetti, F.
00080090-8847-4ba3-ab00-ed9b5f8bb7de
Sachrajda, C.T.
0ed6568b-f52f-4314-8677-4aeeb925d6f7
Sanfilippo, F.
14276d98-365a-4c37-a808-f4e9aff31fdc
Simula, S.
8a99d2e2-3a93-463f-ad75-806579d6a668
Tantalo, N.
dad8443c-f768-41f5-947c-ac32db39c040
15 June 2022
Gagliardi, G.
fa872186-87a0-4e5d-bd7a-3d9eb28ce4a9
Lubicz, V.
8161bebb-280a-42e1-bba7-f445c9e2754e
Martinelli, G.
3949da7a-7efe-4ebd-b1f7-92f1ca150d66
Mazzetti, F.
00080090-8847-4ba3-ab00-ed9b5f8bb7de
Sachrajda, C.T.
0ed6568b-f52f-4314-8677-4aeeb925d6f7
Sanfilippo, F.
14276d98-365a-4c37-a808-f4e9aff31fdc
Simula, S.
8a99d2e2-3a93-463f-ad75-806579d6a668
Tantalo, N.
dad8443c-f768-41f5-947c-ac32db39c040
Gagliardi, G., Lubicz, V., Martinelli, G., Mazzetti, F., Sachrajda, C.T., Sanfilippo, F., Simula, S. and Tantalo, N.
(2022)
Virtual photon emission in leptonic decays of charged pseudoscalar mesons.
Physical Review D, 105 (11), [114507].
(doi:10.1103/PhysRevD.105.114507).
Abstract
We study the radiative leptonic decays P→ℓνℓℓ′+ℓ′-, where P is a pseudoscalar meson and ℓ and ℓ′ are charged leptons. In such decays the emitted photon is off-shell and, in addition to the "point-like"contribution in which the virtual photon is emitted either from the lepton or the meson treated as a point-like particle, four structure-dependent (SD) form factors contribute to the amplitude. We present a strategy for the extraction of the SD form factors and implement it in an exploratory lattice computation of the decay rates for the four channels of kaon decays (ℓ, ℓ′=e, μ). It is the SD form factors which describe the interaction between the virtual photon and the internal hadronic structure of the decaying meson, and in our procedure we separate the SD and point-like contributions to the amplitudes. We demonstrate that the form factors can be extracted with good precision and, in spite of the unphysical quark masses used in our simulation (mπ≃320 MeV and mK≃530 MeV), the results for the decay rates are in reasonable semiquantitative agreement with experimental data (for the channels where these exist). Following this preparatory work, the emphasis of our future work will be on obtaining results at physical quark masses and on the control of the systematic uncertainties associated with discretization and finite-volume errors.
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Accepted/In Press date: 8 February 2022
Published date: 15 June 2022
Additional Information:
Funding Information:
We thank Roberto Frezzotti, Marco Garofalo and Cecilia Tarantino for useful discussions, Hong Ma and Andrei Poblaguev for correspondence concerning the experimental results in Refs. and Xu Feng for correspondence concerning finite-volume corrections. We acknowledge the Consorzio Interuniversitario per il Calcolo Automatico dell’Italia Nord Orientale (CINECA) for the provision of CPU time under the specific initiative INFN-LQCD123 and IscrB_S-EPIC. F. S., G. G., and S. S. are supported by the Italian Ministry of University and Research (MIUR) under Grant No. PRIN20172LNEEZ. F. S. and G. G are supported by INFN under GRANT73/CALAT. C. T. S. was partially supported by an Emeritus Fellowship from the Leverhulme Trust and by STFC (UK) Grants No. ST/P000711/1 and No. ST/T000775/1.
Publisher Copyright:
© 2022 authors. Published by the American Physical Society.
Keywords:
hep-lat, hep-ph
Identifiers
Local EPrints ID: 472600
URI: http://eprints.soton.ac.uk/id/eprint/472600
ISSN: 2470-0010
PURE UUID: 9ac9cc82-7f6c-4068-8bd8-25c3888db228
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Date deposited: 09 Dec 2022 17:40
Last modified: 30 Sep 2024 14:23
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Contributors
Author:
G. Gagliardi
Author:
V. Lubicz
Author:
G. Martinelli
Author:
F. Mazzetti
Author:
F. Sanfilippo
Author:
S. Simula
Author:
N. Tantalo
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