English

The \pi^+\pi^- Coulomb interaction study and its use in the data processing

High Energy Physics - Phenomenology 2024-09-20 v1 High Energy Physics - Experiment

Abstract

In this work the Coulomb effects (Coulomb correlations) in π+π\pi^+\pi^- pairs produced in p + Ni collisions at 24 GeV/cc, are studied using experimental π+π\pi^+\pi^- pair distributions in QQ, the relative momentum in the pair center of mass system (c.m.s), and its projections QLQ_L (longitudinal component) and QtQ_t (transverse component) relative to the pair direction in the laboratory system (l.s.). The QQ, QLQ_L, and QtQ_t distributions of the {\sl Coulomb pairs} in the c.m.s. have been simulated assuming they are described by the phase space modified by the known point-like Coulomb correlation function AC(Q)A_C(Q), corrected for small effects due to the nonpoint-like pair production and the strong two-pion interaction. The same distributions of {\sl non-Coulomb pairs} have been simulated according to the phase space, but without AC(Q)A_C(Q). It is shown that the number of {\sl Coulomb pairs} in all QtQ_t intervals, including the small QtQ_t (small opening angles θ\theta in the l.s.) is calculated with the theoretical precision better than 2\%. The comparison of the simulated and experimental numbers of {\sl Coulomb pairs} at small QtQ_t allows us to check and correct the detection efficiency for the pairs with small θ\theta (0.06 mrad and smaller). It is shown that {\sl Coulomb pairs} can be used as a new physical tool to check and correct the quality of the simulated events. The special property of the {\sl Coulomb pairs} is the possibility of checking and correcting the detection efficiency, especially for the pairs with small opening angles.

Keywords

Cite

@article{arxiv.2409.12696,
  title  = {The \pi^+\pi^- Coulomb interaction study and its use in the data processing},
  author = {B. Adeva and L. Afanasyev and A. Anania and S. Aogaki and A. Benelli and V. Brekhovskikh and T. Cechak and M. Chiba and P. Chliapnikov and D. Drijard and A. Dudarev and D. Dumitriu and P. Federicova and A. Gorin and K. Gritsay and C. Guaraldo and M. Gugiu and M. Hansroul and Z. Hons and S. Horikawa and Y. Iwashita and J. Kluson and M. Kobayashi and L. Kruglova and A. Kulikov and E. Kulish and A. Lamberto and A. Lanaro and R. Lednicky and C. Marinas and J. Martincik and L. Nemenov and M. Nikitin and K. Okada and V. Olchevskii and M. Pentia and A. Penzo and M. Plo and P. Prusa and G. Rappazzo and A. Romero Vidal and A. Ryazantsev and V. Rykalin and J. Saborido and J. Schacher and A. Sidorov and J. Smolik and F. Takeutchi and T. Trojek and S. Trusov and T. Urban and T. Vrba and V. Yazkov and Y. Yoshimura and P. Zrelov},
  journal= {arXiv preprint arXiv:2409.12696},
  year   = {2024}
}
R2 v1 2026-06-28T18:50:10.599Z