Effects of the final-state interaction in (γ, pn) and (γ, pp) processes
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Cited by (61)
Hard probes of short-range nucleonnucleon correlations
2012, Progress in Particle and Nuclear PhysicsCitation Excerpt :However, since the energy and momentum transfer were only few hundred MeV, it was practically impossible to distinguish the struck and recoil nucleons. Theoretical studies of these reactions demonstrated that in fact the dominant contribution comes from a two-step processes where there is an electromagnetic interaction with one proton, with the second proton knock-out coming from IC or FSI effects [155–157]. Even though these reactions demonstrated sensitivity to high momentum component of the nuclear wave function [158], the SRC evidence was indirect and the dominant mechanisms were final state interactions and long-range nucleon correlations [159].
Energy levels of light nuclei A = 8,9,10
2004, Nuclear Physics ASelf-consistent Green's function method for nuclei and nuclear matter
2004, Progress in Particle and Nuclear PhysicsSpin-dependent correlations and the semi-exclusive <sup>16</sup>O(e,e′p) reaction
2000, Nuclear Physics ACompton scattering by nuclei
2000, Physics ReportCitation Excerpt :At low energies the relative strengths of electromagnetic multipoles were analyzed [13,16,19,25,33,64,95,169] for comparison with predictions from multipole sum rules. The interesting question, whether the electromagnetic polarizabilities of the nucleon inside the nucleus essentially differ from those of the free nucleon, has been theoretically addressed [80,82,104,166,168] and experimentally studied with good accuracy [39,43,48,170]. In the process of nuclear Compton scattering the exchange of mesons between nucleons, which represents the nucleon–nucleon interaction, leads to specific observable phenomena in the whole energy region considered here.