Nuclear transparency from quasielasticC12(e,e'p)

/ Authors

D. Rohe, O. Benhar, C. Armstrong, R. Asaturyan, O. Baker, S. Bueltmann, C. Carasco, D. Day, R. Ent, H. Fenker

and 29 more authors

K. Garrow, A. Gasparian, P. Guèye, M. Hauger, A. Honegger, J. Jourdan, C. Keppel, G. Kubon, R. Lindgren, A. Lung, D. Mack, J. Mitchell, H. Mkrtchyan, D. Mocelj, K. Normand, T. Petitjean, O. Rondon, E. Segbefia, I. Sick, S. Stepanyan, L. Tang, F. Tiefenbacher, W. Vulcan, G. Warren, S. Wood, L. Yuan, M. Zeier, H. Zhu, B. Zihlmann

/ Abstract

We studied the reaction {sup 12}C(e,e{sup '}p) in quasielastic kinematics at momentum transfers between 0.6 and 1.8 (GeV/c){sup 2} covering the single-particle region. From this the nuclear transparency factors are extracted using two methods. The results are compared to theoretical predictions obtained using a generalization of Glauber theory described in this paper. Furthermore, the momentum distribution in the region of the 1s-state up to momenta of 300 MeV/c is obtained from the data and compared to the correlated basis function theory and the independent-particle shell model.

Journal: Physical Review C

DOI: 10.1103/PhysRevC.72.054602