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Constraints on anomalous quartic gauge boson couplings fromνν¯γγandqq¯γγevents at CERN LEP2

Physical review. D. Particles, fields, gravitation, and cosmology/Physical review. D, Particles, fields, gravitation, and cosmology2004Vol. 70(3)

Citations Over TimeTop 14% of 2004 papers

G. Abbiendi, C. Ainsley, P.F. Åkesson, G. Alexander, J. Allison, P. Amaral, G. Anagnostou, K. J. Anderson, S. Asai, D. Axen, G. Azuelos, I. Bailey, E. L. Barberio, T. Barillari, R. J. Barlow, R.J. Batley, Y. Bai, T. Behnke, K. W. Bell, P. J. Bell, G. Bella, A. Bellerive, G. Benelli, S. Bethke, O. Biebel, O. E. Vickey Boeriu, P. Bock, M. Boutemeur, S. Braibant, L. Brigliadori, R. M. Brown, K. Buesser, H. Burckhart, S. Campana, R.K. Carnegie, A. A. Carter, J. R. Carter, C.Y. Chang, D. G. Charlton, C. Ciocca, Á. Csilling, M. Cuffiani, S. Dado, A. De Roeck, E. A. De Wolf, S. De Cecco, B. Dienes, M. Donkers, J. Dubbert, E. Duchovni, G. Duckeck, I. P. Duerdoth, E. Etzion, F. Fabbri, L. Feld, P. Ferrari, F. Fiedler, I. Fleck, M. Ford, A. Frey, P. Gagnon, J. W. Gary, G. Gaycken, Ch. Geich-Gimbel, P. Giacomelli, P. Giacomelli, M. Giunta, J. Goldberg, E. Ros, J. Grunhaus, M. Gruwé, P. O. Günther, A. Gupta, C. Hajdu, M. Hamann, G.G. Hanson, A. Harel, M. Hauschild, C. M. Hawkes, R. J. Hawkings, R.J. Hemingway, G. Herten, Rolf-Dieter Heuer, J. C. Hill, K. D. Hoffman, D. Horváth, P. Igo-Kemenes, K. Ishii, H. Jérémie, P. Jovanović, T. R. Junk, N. Kanaya, J. Kanzaki, D. Karlen, K. Kawagoe, T. Kawamoto, R. Keeler, R. G. Kellogg, B. W. Kennedy, S. Kluth, T. Kobayashi, M. Kobel, S. Komamiya, T. Krämer, P. Krieger, J. von Krogh, K. Krüger, T. Kühl, M. Kupper, G. Lafferty, H. Landsman, D. Lanske, J. G. Layter, D. Lellouch, J. Letts, Levinson, J. Lillich, S. L. Lloyd, F. K. Loebinger, J. Lu, A. Ludwig, J. Ludwig, Wolfgang Mader, S. Marcellini, A. J. Martin, G. Masetti, T. Mashimo, P. Mättig, J. A. McKenna, R. A. McPherson, F. Meijers, W. Menges, F. S. Merritt, H. Mes, N. T. Meyer, A. Michelini, S. Mihara, G. Mikenberg, D.J. Miller, S. Moêd, W. Mohr, T. Mori, A. Mutter, K. Nagai, I. Nakamura, H. Nanjo, H. A. Neal, R. Nisius, S.W. OʼNeale, A. Oh, M. J. Oreglia, S. Orito, C. Pahl, G. Pásżtor, J. R. Pater, J. E. Pilcher, J. L. Pinfold, D.E. Plane, B. Poli, O. Pooth, M. Przybycień, A. Quadt, K. Rabbertz, C. Rembser, P. Renkel, J. M. Roney, Y. Rozen, K. Runge, K. Sachs, T. Saeki, E.K.G. Sarkisyan, A.D. Schaile, O. Schaile, P. Scharff-Hansen, J. Schieck, T. Schörner-Sadenius, M. Schröder, M. Schumacher, W. G. Scott, R. Seuster, T. Shears, B. C. Shen, Q. Shen, A. Skuja, Andrew Smith, R. Sobie, S. Söldner‐Rembold, F. Spanò, A. Stahl, David Ström, R. Ströhmer, S. Tarem, M. Taševský, R. J. Teuscher, M. Thomson, E. Torrence, D. Toya, P. Tran, I. M. Trigger, Z. L. Trocsanyi, E. Tsur, M. F. Watson, I. Ueda, B. Ujvári, C.F. Vollmer, P. Vannerem, Róbert Vértesi, M. Verzocchi, H. Voss, J. H. Vossebeld, C. P. Ward, D. R. Ward, P. M. Watkins, A. T. Watson, N. K. Watson, P. S. Wells, T. Wengler, N. Wermes, G. Wilson, G. Wilson, W. Wiedenmann, X. Wu, Shinji Yamashita, D. Zer-Zion, L. Živković

Abstract

Anomalous quartic couplings between the electroweak gauge bosons may contribute to the $\ensuremath{\nu}\overline{\ensuremath{\nu}}\ensuremath{\gamma}\ensuremath{\gamma}$ and $q\overline{q}\ensuremath{\gamma}\ensuremath{\gamma}$ final states produced in ${e}^{+}{e}^{\ensuremath{-}}$ collisions. This analysis uses the LEP2 OPAL data sample at center-of-mass energies up to 209 GeV. Event selections identify $\ensuremath{\nu}\overline{\ensuremath{\nu}}\ensuremath{\gamma}\ensuremath{\gamma}$ and $q\overline{q}\ensuremath{\gamma}\ensuremath{\gamma}$ events in which the two photons are reconstructed within the detector acceptance. The cross section for the process ${e}^{+}{e}^{\ensuremath{-}}\ensuremath{\rightarrow}q\overline{q}\ensuremath{\gamma}\ensuremath{\gamma}$ is measured. Averaging over all energies, the ratio of the observed ${e}^{+}{e}^{\ensuremath{-}}\ensuremath{\rightarrow}q\overline{q}\ensuremath{\gamma}\ensuremath{\gamma}$ cross section to the standard model expectation is $\mathrm{R}(\mathrm{data}/\mathrm{SM})=0.92\ifmmode\pm\else\textpm\fi{}0.07\ifmmode\pm\else\textpm\fi{}0.04,$ where the errors represent the statistical and systematic uncertainties respectively. The $\ensuremath{\nu}\overline{\ensuremath{\nu}}\ensuremath{\gamma}\ensuremath{\gamma}$ and $q\overline{q}\ensuremath{\gamma}\ensuremath{\gamma}$ data are used to constrain possible anomalous ${W}^{+}{W}^{\ensuremath{-}}\ensuremath{\gamma}\ensuremath{\gamma}$ and $\mathrm{ZZ}\ensuremath{\gamma}\ensuremath{\gamma}$ couplings. Combining with previous OPAL results from the ${W}^{+}{W}^{\ensuremath{-}}\ensuremath{\gamma}$ final state, the 95% confidence level limits on the anomalous coupling parameters ${a}_{0}^{\mathrm{Z}},$ ${a}_{\mathrm{c}}^{\mathrm{Z}},$ ${a}_{0}^{\mathrm{W}}$ and ${a}_{\mathrm{c}}^{\mathrm{W}}$ are found to be $\ensuremath{-}0.007 {\mathrm{GeV}}^{\ensuremath{-}2}<{a}_{0}^{\mathrm{Z}}/{\ensuremath{\Lambda}}^{2}<0.023 {\mathrm{GeV}}^{\ensuremath{-}2},$ $\ensuremath{-}0.029 {\mathrm{GeV}}^{\ensuremath{-}2}<{a}_{\mathrm{c}}^{\mathrm{Z}}/{\ensuremath{\Lambda}}^{2}<0.029 {\mathrm{GeV}}^{\ensuremath{-}2},$ $\ensuremath{-}0.020 {\mathrm{GeV}}^{\ensuremath{-}2}<{a}_{0}^{\mathrm{W}}/{\ensuremath{\Lambda}}^{2}<0.020 {\mathrm{GeV}}^{\ensuremath{-}2},$ $\ensuremath{-}0.052 {\mathrm{GeV}}^{\ensuremath{-}2}<{a}_{\mathrm{c}}^{\mathrm{W}}/{\ensuremath{\Lambda}}^{2}<0.037 {\mathrm{GeV}}^{\ensuremath{-}2},$ where $\ensuremath{\Lambda}$ is the energy scale of the new physics. Limits found when allowing two or more parameters to vary are also presented.

Citations Over TimeTop 14% of 2004 papers

Abstract

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