Beam Charge Asymmetries for Deeply Virtual Compton Scattering on the   Proton at CLAS12

E. Voutier; V. Burkert; S. Niccolai; R. Paremuzyan; A.Afanasev; J.-S.; Alvarado-Galeano; M. Atoui; L. Barion; M. Battaglieri; J. Bernauer; A.; Bianconi; M. Bondi; W. Briscoe; A. Camsonne; R. Capobianco; A. Celentano; P.; Chatagnon; T. Chetry; G. Ciullo; P. Cole; M. Contalbrigo; G. Costantini; M.; Defurne; A. Deur; R. De Vita; S. Diehl; R. Dupr\'e; L. Elouadrhiri; I.; Fernando; A. Filippi; T. Forest; F.-X. Girod; G. Gosta; J. Grames; P. Gueye,; S. Habet; M. Hattawy; D. Higinbotham; A. Hobart; C. Hyde; K. Joo; A. Kim; V.; Klimenko; V. Kubarovsky; M. Leali; P. Lenisa; D. Marchand; L. Marsicano; V.; Mascagna; D. Matamoros; M. McCaughan; B. McKinnon; S. Migliorati; H.S. Mitra,; A. Movsisyan; C. Mu\~noz-Camacho; M. Osipenko; M. Ouillon; L. Pappalardo; B.; Pasquini; E. Pasyuk; N. Pilleux; M. Poelker; B. Raue; M. Ripani; R. Santos,; A. Schmidt; R. Singh; D. Sokhan; M. Spreafico; P. Stoler; I. Strakovsky; M.; Taiuti; L. Venturelli; P.-K. Wang; X. Wei; Z. Zhao; and the CLAS; Collaboration; the Jefferson Lab Positron Working Group

arXiv:2309.14041·nucl-ex·November 14, 2023·1 cites

Beam Charge Asymmetries for Deeply Virtual Compton Scattering on the Proton at CLAS12

E. Voutier, V. Burkert, S. Niccolai, R. Paremuzyan, A.Afanasev, J.-S., Alvarado-Galeano, M. Atoui, L. Barion, M. Battaglieri, J. Bernauer, A., Bianconi, M. Bondi, W. Briscoe, A. Camsonne, R. Capobianco, A. Celentano, P., Chatagnon, T. Chetry, G. Ciullo, P. Cole, M. Contalbrigo

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TL;DR

This study proposes measuring beam charge asymmetries in deeply virtual Compton scattering at CLAS12 to better understand nucleon structure and GPDs, using polarized electron and positron beams over a broad kinematic range.

Contribution

It introduces a novel experimental approach to measure beam charge asymmetries in DVCS at CLAS12, providing new insights into GPDs and nucleon structure.

Findings

01

Expected to constrain GPD models more tightly.

02

Will provide data on the real and imaginary parts of interference amplitudes.

03

Aims to access the D-term and higher-twist effects.

Abstract

The parameterization of the nucleon structure through Generalized Parton Distributions (GPDs) shed a new light on the nucleon internal dynamics. For its direct interpretation, Deeply Virtual Compton Scattering (DVCS) is the golden channel for GPDs investigation. The DVCS process interferes with the Bethe-Heitler (BH) mechanism to constitute the leading order amplitude of the $e N \to e N γ$ process. The study of the $e p γ$ reaction with polarized positron and electron beams gives a complete set of unique observables to unravel the different contributions to the $e p γ$ cross section. This separates the different reaction amplitudes, providing a direct access to their real and imaginary parts which procures crucial constraints on the model dependences and associated systematic uncertainties on GPDs extraction. The real part of the BH-DVCS interference amplitude is particularly…

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Nuclear physics research studies · Dark Matter and Cosmic Phenomena