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The dynamics of the quasielastic $^{16}O$(e,e'p) reaction at $Q^2$ $\approx$ 0.8 (GeV/c)$^2$

K. G. Fissum M. Liang B. D. Anderson K. A. Aniol L. Auerbach F. T. Baker J. Berthot 1 W. Bertozzi P.Y. Bertin 1 L. Bimbot 2 W. U. Boeglin E. J. Brash Vincent Breton 1 H. Breuer E. Burtin J. R. Calarco L. S. Cardman G. D. Cates C. Cavata C. C. Chang J.-P. Chen E. Cisbani D. S. Dale C. W. de Jager R. de Leo A. Deur 1 B. Diederich P. Djawotho J. Domingo J.-E. Ducret M. B. Epstein L.A. Ewell J. M. Finn H. Fonvieille 1 B. Frois S. Frullani J. Gao F. Garibaldi A. Gasparian S. Gilad R. Gilman A. Glamazdin C. Glashausser J. Gomez V. Gorbenko T. Gorringe F. W. Hersman R. Holmes M. Holtrop N. d'Hose C. Howell G. M. Huber C. E. Hyde-Wright M. Iodice S. Jaminion 1 M. K. Jones K. Joo C. Jutier 1 W. Kahl S. Kato J.J. Kelly S. Kerhoas M. Khandaker M. Khayat K. Kino W. Korsch L. Kramer K. S. Kumar G. Kumbartzki G. Laveissière 1 A. Leone J.J. Lerose L. Levchuk R. A. Lindgren N. Liyanage G. J. Lolos R. W. Lourie R. Madey K. Maeda S. Malov D. M. Manley D. J. Margaziotis P. Markowitz J. Martino 3 J. S. Mccarthy K. Mccormick J. Mcintyre R. L. J. van der Meer Z.-E. Meziani R. Michaels J. Mougey 4 S. Nanda D. Neyret E. A. J. M. Offermann Z. Papandreou C. F. Perdrisat R. Perrino G. G. Petratos S. Platchkov R. Pomatsalyuk D. L. Prout V. A. Punjabi T. Pussieux G. Quéméner 1, 4 R. D. Ransome O. Ravel 1 Y. Roblin 1 R. Roche D. Rowntree G. A. Rutledge P. M. Rutt A. Saha T. Saito A. J. Sarty A. Serdarevic-Offermann T. P. Smith A. Soldi P. Sorokin P. Souder R. Suleiman J. A. Templon T. Terasawa L. Todor H. Tsubota H. Ueno P. E. Ulmer G. M. Urciuoli P. Vernin S. van Verst B. Vlahovic H. Voskanyan J. W. Watson L. B. Weinstein K. Wijesooriya B. Wojtsekhowski D. G. Zainea V. Zeps J. Zhao Z.-L. Zhou
Abstract : The physics program in Hall A at Jefferson Lab commenced in the summer of 1997 with a detailed investigation of the 16O(e,e'p) reaction in quasielastic, constant (q,w) kinematics at Q^2 ~ 0.8 (GeV/c)^2, q ~ 1 GeV/c, and w ~ 445 MeV. Use of a self-calibrating, self-normalizing, thin-film waterfall target enabled a systematically rigorous measurement. Differential cross-section data for proton knockout were obtained for 0 < Emiss < 120 MeV and 0 < pmiss < 350 MeV/c. These results have been used to extract the ALT asymmetry and the RL, RT, RLT, and RL+TT effective response functions. Detailed comparisons of the data with Relativistic Distorted-Wave Impulse Approximation, Relativistic Optical-Model Eikonal Approximation, and Relativistic Multiple-Scattering Glauber Approximation calculations are made. The kinematic consistency of the 1p-shell normalization factors extracted from these data with respect to all available 16O(e,e'p) data is examined. The Q2-dependence of the normalization factors is also discussed.
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Submitted on : Wednesday, December 1, 2004 - 3:48:19 PM
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K. G. Fissum, M. Liang, B. D. Anderson, K. A. Aniol, L. Auerbach, et al.. The dynamics of the quasielastic $^{16}O$(e,e'p) reaction at $Q^2$ $\approx$ 0.8 (GeV/c)$^2$. Physical Review C, American Physical Society, 2004, 70, pp.034606-1-034606-30. ⟨10.1103/PhysRevC.70.034606⟩. ⟨in2p3-00023372⟩

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