Light Pair Correction to Bhabha Scattering at Small Angle

This work deals with the computation of electron pair correction to small angle Bhabha scattering, in order to contribute to the improvement of luminometry precision at LEP/SLC below 0.1% theoretical accuracy. The exact QED four-fermion matrix element for $e^+e^-\to e^+e^-e^+e^-$, including all diag...

Descripción completa

Detalles Bibliográficos
Autores principales: Montagna, G., Moretti, M., Nicrosini, O., Pallavicini, A., Piccinini, F.
Lenguaje:eng
Publicado: 1998
Materias:
Particle Physics - Phenomenology
Acceso en línea:https://dx.doi.org/10.1016/S0550-3213(99)00064-4
http://cds.cern.ch/record/372016
_version_ 1780893156640817152
author Montagna, G.
Moretti, M.
Nicrosini, O.
Pallavicini, A.
Piccinini, F.
author_facet Montagna, G.
Moretti, M.
Nicrosini, O.
Pallavicini, A.
Piccinini, F.
author_sort Montagna, G.
collection CERN
description This work deals with the computation of electron pair correction to small angle Bhabha scattering, in order to contribute to the improvement of luminometry precision at LEP/SLC below 0.1% theoretical accuracy. The exact QED four-fermion matrix element for $e^+e^-\to e^+e^-e^+e^-$, including all diagrams and mass terms, is computed and different Feynman graph topologies are studied to quantify the error of approximate calculations present in the literature. Several numerical results, obtained by a Monte Carlo program with full matrix element, initial-state radiation via collinear structure functions, and realistic event selections, are shown and critically compared with the existing ones. The present calculation, together with recent progress in the sector of $O(\alpha^2)$ purely photonic corrections, contributes to achieve a total theoretical error in luminometry at the 0.05% level, close to the current experimental precision and important in view of the final analysis of the electroweak precision data.
id cern-372016
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 1998
record_format invenio
spelling cern-3720162022-03-31T02:28:36Zdoi:10.1016/S0550-3213(99)00064-4http://cds.cern.ch/record/372016engMontagna, G.Moretti, M.Nicrosini, O.Pallavicini, A.Piccinini, F.Light Pair Correction to Bhabha Scattering at Small AngleParticle Physics - PhenomenologyThis work deals with the computation of electron pair correction to small angle Bhabha scattering, in order to contribute to the improvement of luminometry precision at LEP/SLC below 0.1% theoretical accuracy. The exact QED four-fermion matrix element for $e^+e^-\to e^+e^-e^+e^-$, including all diagrams and mass terms, is computed and different Feynman graph topologies are studied to quantify the error of approximate calculations present in the literature. Several numerical results, obtained by a Monte Carlo program with full matrix element, initial-state radiation via collinear structure functions, and realistic event selections, are shown and critically compared with the existing ones. The present calculation, together with recent progress in the sector of $O(\alpha^2)$ purely photonic corrections, contributes to achieve a total theoretical error in luminometry at the 0.05% level, close to the current experimental precision and important in view of the final analysis of the electroweak precision data.This work deals with the computation of electron pair correction to small angle Bhabha scattering, in order to contribute to the improvement of luminometry precision at LEP/SLC below 0.1% theoretical accuracy. The exact QED four-fermion matrix element for $e^+e^-\to e^+e^-e^+e^-$, including all diagrams and mass terms, is computed and different Feynman graph topologies are studied to quantify the error of approximate calculations present in the literature. Several numerical results, obtained by a Monte Carlo program with full matrix element, initial-state radiation via collinear structure functions, and realistic event selections, are shown and critically compared with the existing ones. The present calculation, together with recent progress in the sector of $O(\alpha^2)$ purely photonic corrections, contributes to achieve a total theoretical error in luminometry at the 0.05% level, close to the current experimental precision and important in view of the final analysis of the electroweak precision data.This work deals with the computation of electron pair correction to small angle Bhabha scattering, in order to contribute to the improvement of luminometry precision at LEP/SLC below 0.1% theoretical accuracy.hep-ph/9811436FNT-T-98-11CERN-TH-98-356CERN-TH-98-356FNT-T-98-11oai:cds.cern.ch:3720161998-11-24
spellingShingle Particle Physics - Phenomenology
Montagna, G.
Moretti, M.
Nicrosini, O.
Pallavicini, A.
Piccinini, F.
Light Pair Correction to Bhabha Scattering at Small Angle
title Light Pair Correction to Bhabha Scattering at Small Angle
title_full Light Pair Correction to Bhabha Scattering at Small Angle
title_fullStr Light Pair Correction to Bhabha Scattering at Small Angle
title_full_unstemmed Light Pair Correction to Bhabha Scattering at Small Angle
title_short Light Pair Correction to Bhabha Scattering at Small Angle
title_sort light pair correction to bhabha scattering at small angle
topic Particle Physics - Phenomenology
url https://dx.doi.org/10.1016/S0550-3213(99)00064-4
http://cds.cern.ch/record/372016
work_keys_str_mv AT montagnag lightpaircorrectiontobhabhascatteringatsmallangle
AT morettim lightpaircorrectiontobhabhascatteringatsmallangle
AT nicrosinio lightpaircorrectiontobhabhascatteringatsmallangle
AT pallavicinia lightpaircorrectiontobhabhascatteringatsmallangle
AT piccininif lightpaircorrectiontobhabhascatteringatsmallangle

Ejemplares similares