A DEPARTURE FROM PREDICTION: ELECTROWEAK PHYSICS AT NUTEV
/ Authors
K. McFarland, G. Zeller, T. Adams, A. Alton, S. Avvakumov, L. Debarbaro, P. DeBarbaro, R. Bernstein, A. Bodek, T. Bolton
and 35 more authors
J. Brau, D. Buchholz, H. Budd, L. Bugel, J. Conrad, R. Drucker, B. Fleming, R. Frey, J. Formaggio, J. Goldman, M. Goncharov, D. Harris, R. Johnson, J. Kim, S. Koutsoliotas, M. Lamm, W. Marsh, D. Mason, J. Mcdonald, C. McNulty, D. Naples, P. Nienaber, A. Romosan, W. Sakumoto, H. Schellman, M. Shaevitz, P. Spentzouris, E. Stern, N. Suwonjandee, M. Tzanov, M. Vakili, A. Vaitaitis, U. Yang, J. Yu, E. Zimmerman
/ Abstract
The NuTeV experiment has performed precision measurements of the ratio of neutral-current to charged-current cross-sections in high rate, high energy neutrino and antineutrino beams on a dense, primarily steel, target. The separate neutrino and anti-neutrino beams, high statistics, and improved control of other experimental systematics, allow the determination of electroweak parameters with significantly greater precision than past {nu}N scattering experiments. Our null hypothesis test of the standard model prediction measures sin{sup 2} {theta}{sub W}{sup (on shell)} = 0.2277 {+-} 0.0013(stat) {+-} 0.0009(syst), a value which is 3.0{sigma} above the prediction. We discuss possible explanations for and implications of this discrepancy.
Journal: arXiv: High Energy Physics - Experiment