The differential cross section was measured for the 12C(e,e’pp)10Beg.s. reaction at energy and momentum transfers of 163MeV and 198MeV/c, respectively. The measurement was performed at the Mainz Microtron by using two high-resolution magnetic spectrometers of the A1 Collaboration and a newly developed silicon detector telescope. The overall resolution of the detector system was sufficient to distinguish the ground state from the first excited state in 10 Be. We chose a super-parallel geometry that minimizes the effect of two-body currents and emphasizes the effect of nucleon-nucleon correlations. The obtained differential cross section is compared to the theoretical results of the Pavia reaction code in which different processes leading to two-nucleon knockout are accounted for microscopically. The comparison shows a strong sensitivity to nuclear-structure input and the measured cross section is seen to be dominated by the interplay between long- and short-range nucleon-nucleon correlations. Microscopic calculations based on the ab initio self-consistent Green’s function method give a reasonable description of the experimental cross section.

Differential cross section measurement of the C-12(e, e ' pp)Be-10(g.s.) reaction / M. Makek, P. Achenbach, C. Ayerbe Gayoso, C. Barbieri, J.C. Bernauer, R. Bohm, D. Bosnar, A. Denig, M.O. Distler, I. Friscic, C. Giusti, H. Merkel, U. Muller, L. Nungesser, J. Pochodzalla, S. Sanches Majos, B.S. Schlimme, M. Schwamb, T. Walcher. - In: THE EUROPEAN PHYSICAL JOURNAL. A, HADRONS AND NUCLEI. - ISSN 1434-6001. - 52:9(2016), pp. 298.1-298.7.

Differential cross section measurement of the C-12(e, e ' pp)Be-10(g.s.) reaction

C. Barbieri;
2016

Abstract

The differential cross section was measured for the 12C(e,e’pp)10Beg.s. reaction at energy and momentum transfers of 163MeV and 198MeV/c, respectively. The measurement was performed at the Mainz Microtron by using two high-resolution magnetic spectrometers of the A1 Collaboration and a newly developed silicon detector telescope. The overall resolution of the detector system was sufficient to distinguish the ground state from the first excited state in 10 Be. We chose a super-parallel geometry that minimizes the effect of two-body currents and emphasizes the effect of nucleon-nucleon correlations. The obtained differential cross section is compared to the theoretical results of the Pavia reaction code in which different processes leading to two-nucleon knockout are accounted for microscopically. The comparison shows a strong sensitivity to nuclear-structure input and the measured cross section is seen to be dominated by the interplay between long- and short-range nucleon-nucleon correlations. Microscopic calculations based on the ab initio self-consistent Green’s function method give a reasonable description of the experimental cross section.
short-range correlations; nucleon-nucleon correlations; 2-nucleon knockout reactions; final-state interaction; electron-scattering; O-16(E,EOO) reaction; O-16; momentum; systems; matter
Settore FIS/04 - Fisica Nucleare e Subnucleare
2016
Article (author)
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/711301
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