What question did this study set out to answer?

The aim is to study two photon processes at high precision using a tagging system designed for electron collisions.

March 5, 2026Open Access

Two Photon Interaction Measurements with the KLOE Small Angle Tagging System

Key Points

The aim is to study two photon processes at high precision using a tagging system designed for electron collisions.
Designed the KLOE small angle tagging system for scattered electrons.
Utilized COIL, SAT, and BREM detectors for tagging particles and rejecting events.
Placed two systems symmetrically at the interaction point to tag both electrons and positrons.
Calculated the maximum number of events per year that can be collected.
Assessed the statistical error on the two photon processes' cross section.

Abstract

The two photon processes γγ→π^ (0), η, π⁰π⁰, π^+π^-, π⁰ η, η^', expected in e-e+ collitions at DAPHNE, can be studied with high precision by introducing a small angle tagging facilities for the scattered electrons. We describe the design of the KLOE small angle tagging system to study γγ interactions at DAPHNE. This includes a COIL detector to tag particles hitting the SFM coils, a SAT detector to tag electrons passing through the SFM and a BREM detector for high energy photons in coincidence with tagged electrons in order to reject the radiative Bhabba events. Two such systems placed symmetrically with respect to the interaction point allow tagging both electrons and positrons. The maximum number of events/year that can be collected by this tagging system and the statistical error on the γγ→π⁰π⁰, cross section are also discussed.

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Cite This Study

M. et al. (Mon,) studied this question.

synapsesocial.com/papers/69a91e57d6127c7a504c230a https://doi.org/https://doi.org/10.15161/oar.it/k09y8-wfb94

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