Spin Density Matrix Elements in Exclusive $\omega$ Meson Muoproduction   $^*$

M.G. Alexeev; G.D. Alexeev; A. Amoroso; V. Andrieux; V. Anosov; A.; Antoshkin; K. Augsten; W. Augustyniak; C.D.R. Azevedo; B. Badelek; F.; Balestra; M. Ball; J. Barth; R. Beck; Y. Bedfer; J. Berenguer Antequera; J.; Bernhard; M. Bodlak; F. Bradamante; A. Bressan; V.E. Burtsev; W.-C. Chang; C.; Chatterjee; M. Chiosso; A.G. Chumakov; S.-U. Chung; A. Cicuttin; P.M.M.; Correia; M.L. Crespo; D. D'Ago; S. Dalla Torre; S.S. Dasgupta; S. Dasgupta,; I. Denisenko; O.Yu. Denisov; S.V. Donskov; N. Doshita; Ch. Dreisbach; W.; Duennweber; R.R. Dusaev; A. Efremov; P.D. Eversheim; P. Faccioli; M.; Faessler; A. Ferrero; M. Finger; M. Finger jr.; H. Fischer; C. Franco; J.M.; Friedrich; V. Frolov; F. Gautheron; O.P. Gavrichtchouk; S. Gerassimov; J.; Giarra; I. Gnesi; M. Gorzellik; A. Grasso; A. Gridin; M. Grosse Perdekamp; B.; Grube; A. Guskov; D. von Harrach; R. Heitz; F. Herrmann; N. Horikawa; N.; d'Hose; C.-Y. Hsieh; S. Huber; S. Ishimoto; A. Ivanov; T. Iwata; M. Jandek,; T. Jary; R. Joosten; P. Joerg; E. Kabuss; F. Kaspar; A. Kerbizi; B. Ketzer,; G.V. Khaustov; Yu.A. Khokhlov; Yu. Kisselev; F. Klein; J.H. Koivuniemi; V.N.; Kolosov; K. Kondo Horikawa; I. Konorov; V.F. Konstantinov; A.M. Kotzinian,; O.M. Kouznetsov; A. Koval; Z. Kral; F. Krinner; Y. Kulinich; F. Kunne; K.; Kurek; R.P. Kurjata; A. Kveton; K. Lavickova; S. Levorato; Y.-S. Lian; J.; Lichtenstadt; P.-J. Lin; R. Longo; V.E. Lyubovitskij; A. Maggiora; A. Magnon,; N. Makins; N. Makke; G.K. Mallot; A. Maltsev; S.A. Mamon; B. Marianski; A.; Martin; J. Marzec; J. Matousek; T. Matsuda; G. Mattson; G.V. Meshcheryakov,; M. Meyer; W. Meyer; Yu.V. Mikhailov; M. Mikhasenko; E. Mitrofanov; N.; Mitrofanov; Y. Miyachi; A. Moretti; A. Nagaytsev; C. Naim; D. Neyret; J.; Novy; W.-D. Nowak; G. Nukazuka; A.S. Nunes; A.G. Olshevskiy; M. Ostrick; D.; Panzieri; B. Parsamyan; S. Paul; H. Pekeler; J.-C. Peng; M. Pesek; D.V.; Peshekhonov; M. Peskova; N. Pierre; S. Platchkov; J. Pochodzalla; V.A.; Polyakov; J. Pretz; M. Quaresma; C. Quintans; C. Regali; G. Reicherz; C.; Riedl; T. Rudnicki; D.I. Ryabchikov; A. Rybnikov; A. Rychter; V.D.; Samoylenko; A. Sandacz; S. Sarkar; I.A. Savin; G. Sbrizzai; H. Schmieden; A.; Selyunin; L. Sinha; M. Slunecka; J. Smolik; A. Srnka; D. Steffen; M.; Stolarski; O. Subrt; M. Sulc; H. Suzuki; T. Szameitat; P. Sznajder; S.; Tessaro; F. Tessarotto; A. Thiel; J. Tomsa; F. Tosello; A. Townsend; V.; Tskhay; S. Uhl; B.I. Vasilishin; A. Vauth; B.M. Veit; J. Veloso; B. Ventura,; A.Vidon; M. Virius; M. Wagner; S. Wallner; K. Zaremba; P. Zavada; M.; Zavertyaev; M. Zemko; E. Zemlyanichkina; Y. Zhao; M. Ziembicki

arXiv:2009.03271·hep-ex·August 14, 2023

Spin Density Matrix Elements in Exclusive $\omega$ Meson Muoproduction $^*$

M.G. Alexeev, G.D. Alexeev, A. Amoroso, V. Andrieux, V. Anosov, A., Antoshkin, K. Augsten, W. Augustyniak, C.D.R. Azevedo, B. Badelek, F., Balestra, M. Ball, J. Barth, R. Beck, Y. Bedfer, J. Berenguer Antequera, J., Bernhard, M. Bodlak, F. Bradamante, A. Bressan, V.E. Burtsev

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TL;DR

This paper reports measurements of Spin Density Matrix Elements in exclusive omega meson muoproduction, revealing violations of s-channel helicity conservation and significant unnatural-parity-exchange contributions, providing insights into Generalised Parton Distributions.

Contribution

The study provides the first detailed measurement of SDMEs in omega muoproduction at COMPASS, highlighting helicity violations and UPE contributions relevant for GPD modeling.

Findings

01

Non-zero SDMEs indicate s-channel helicity violation.

02

UPE contributions decrease with increasing W.

03

Results inform GPD models and parton helicity-flip dynamics.

Abstract

We report on a measurement of Spin Density Matrix Elements (SDMEs) in hard exclusive $ω$ meson muoproduction on the proton at COMPASS using 160 GeV/ $c$ polarised $μ^{+}$ and $μ^{-}$ beams impinging on a liquid hydrogen target. The measurement covers the range 5.0 GeV/ $c^{2}$ $< W <$ 17.0 GeV/ $c^{2}$ , with the average kinematics $⟨ Q^{2} ⟩ =$ 2.1 (GeV/ $c$ ) $^{2}$ , $⟨ W ⟩ = 7.6$ GeV/ $c^{2}$ , and $⟨ p_{T}^{2} ⟩ = 0.16$ (GeV/ $c$ ) $^{2}$ . Here, $Q^{2}$ denotes the virtuality of the exchanged photon, $W$ the mass of the final hadronic system and $p_{T}$ the transverse momentum of the $ω$ meson with respect to the virtual-photon direction. The measured non-zero SDMEs for the transitions of transversely polarised virtual photons to longitudinally polarised vector mesons ( $γ_{T}^{*} \to V_{L}$ ) indicate a violation of $s$ -channel helicity conservation.…

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Taxonomy

TopicsHigh-Energy Particle Collisions Research · Particle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions