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Anklin, H.; deBever, L.J.; Blomqvist, K.I.; Boeglin, W.U.; Böhm, R.; Distler, M.; Edelhoff, R.; Friedrich, J.; Fritschi, D.; Geiges, R.; Götz, J.; Honegger, A.; Jennewein, P.; Jourdan, J.; Kahrau, M.; Korn, M.; Kramer, H.; Krygier, K.W.; Kubon, G.; Kunde, V.; Liesenfeld, A.; Masson, G.; Merle, K.; Neuhausen, R.; Offermann, E.A.J.M.; Petitjean, Th; Pospischil, Th; Potokar, M.; Qin, L.M.; Richter, A.W; Rokavec, A.; Rosner, G.; Sauer, P.; Schardt, S.; Sick, I.; Sirca, S.; Trueb, Ph; Tuccillo, M.; Vodenik, B.; Wagner, A.; Walcher, Th; Warren, G.; Wolf, S.; Zhao, J.; Zeier, M.; Zihlmann, B.
Physics letters. B, 06/1998, Letnik: 428, Številka: 3Journal Article
The neutron magnetic form factor G mn has been determined via a measurement of the ratio of cross sections D( e, e′ n) and D( e, e′ p). The absolute detection efficiency of the neutron detector was measured with high accuracy using tagged neutrons produced from H( n, p) n elastic scattering by means of a high intensity neutron beam. This approach minimizes the model dependence and improves upon the weakest points of previous experiments. Data in the range q 2=0.2–0.8 (GeV/c) 2 with uncertainties of <2% are presented.
