Neutrino production of opposite sign dimuons in the NOMAD experiment

6533b851fe1ef96bd12a984d

RESEARCH PRODUCT

Neutrino production of opposite sign dimuons in the NOMAD experiment

Malcolm Ellis J.j. Gómez-cadenas E. Manola-poggioli Alexey Krasnoperov F. Salvatore M. K. Vo M. Baldo-ceolin K. Benslama O.l. Klimov T. Vinogradova S. Tereshchenko M. Mezzetto E. Do Couto E Silva J. Long Kai Zuber J. Dumarchez Vyacheslav Valuev J. Bouchez B. A. Popov M. T. Tran C. Nguyen-mau T. Del Prete A. Lupi J. M. Gaillard D. Hubbard P. Zuccon K. Schahmaneche D. Verkindt Caroline Poulsen R. Cousins A. Marchionni A. Godley J.-m. Vieira P. Astier T. Dignan P. Hurst S.r. Mishra S.r. Mishra E. Tsesmelis Caren Hagner L. Di Lella M. Valdata-nappi I. Bird I. Bird T. Schmidt F. Juget M. Veltri A. Kovzelev Chiara Roda Chiara Roda A. Letessier-selvon Domizia Orestano G. Collazuol Mario Stipčević M. E. Sevior F. Bobisut D. Daniels Giacomo Polesello A. Pluquet M. Tareb-reyes Valentin Kuznetsov M. Contalbrigo J-p. Meyer J.-p. Mendiburu A. Placci L. La Rotonda Alessandro Cardini Kevin Varvell S.n. Tovey S.n. Tovey L.j. Winton M. Kirsanov E. Pennacchio N. Hyett Fr Pastore André Rubbia André Rubbia A. Grant H. Pessard P. Nedelec J. Ulrichs E. Iacopini A. De Santo A. De Santo Vincenzo Cavasinni G. Sozzi Barry Blumenfeld C. Conta Claus Gößling B. Schmidt B. Schmidt G. Conforto G. Conforto Michel Gouanère J. Kokkonen F. Martelli Nathalie Besson J. A. Hernando D. Steele D. Steele L. Mossuz D. Sillou R. Petti A. Guglielmi M. Steininger Roberto Ferrari J. M. Levy A. Lanza Stefano Lacaprara Fergus Wilson G. Bassompierre S. Boyd B. Lakić G. N. Taylor Giacomo Graziani Yu. Nefedov L. Vacavant A. Cervera-villanueva Bruce Yabsley X. Méchain L. Camilleri H. Degaudenzi G. J. Feldman G. F. Moorhead D. Autiero A. M. Touchard V. Flaminio F. J. P. Soler F. J. P. Soler A. Polyarush Achim Geiser Achim Geiser T. Weisse P. Rathouit Marco Fraternali L. Linssen J. Gosset Didier Ferrere Sergei Gninenko D. Pollmann D. Gibin T. Stolarczyk F.v. Weber F.v. Weber F. Vannucci M. Banner Antonio Bueno Antonio Bueno A. N. Toropin U. Stiegler T. Fazio H. Zaccone E. Gangler D. Geppert C. Joseph P.w. Cattaneo Ante Ljubičić L.s. Peak S.a. Bunyatov A. Baldisseri G. Ballocchi Marco Laveder Valerio Vercesi

subject

Physics Nuclear and High Energy Physics Particle physics Muon [PHYS.HEXP] Physics [physics]/High Energy Physics - Experiment [hep-ex]010308 nuclear & particles physics Branching fraction Order (ring theory)Física 01 natural sciences Charm quark Nuclear physics 0103 physical sciences [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]Production (computer science)Neutrino 010306 general physics Nucleon Particle Physics - Experiment Energy (signal processing)

description

The NOMAD Collaboration presents a study of opposite sign dimuon events in the framework of Leading Order QCD. A total of 2714 neutrino- and 115 antineutrino-induced opposite sign dimuon events with $E_{\mu 1}, E_{\mu 2} > 4.5$ GeV, $15 1\;(\mbox{GeV}/\mbox{c})^{2}$ are observed %in the data from the 1995 and 1996 runs. in the Front-Calorimeter of NOMAD during the 1995 and 1996 runs. The analysis yields a value for the charm quark mass of $m_{c} = 1.3^{+0.3\;+0.3}_{-0.3\;-0.3}\;\mbox{GeV}/\m box{c}^{2}$ and for the average semileptonic branching ratio of $B_{c} = 0.095^{+0.007\;+0.014}_{-0.007\;-0.013}$. The ratio of the strange to non-strange sea in the nucleon is measured to be $\kappa = 0.48^{+0.09 +0.17}_{-0.07 -0.12}$. The measured rate of charm-induced dimuon relative to single muon, as a function of neutrino energy, is consistent with the slow rescaling hypothesis of heavy quark production.

year	journal	country	edition	language
2000-01-01

10.1016/s0370-2693(00)00612-2 http://hdl.handle.net/10550/49654