The reactions in the dip region

“…In particular, these correlations are at the origin of a long energy and momentum tail in the nuclear spectral function. Direct experimental evidence for these have been found in semi-exclusive A(e, e p) measurements [3,4].…”

“…The validity of a frequently adopted approximation, namely the replacement of the individual nucleon wave functions by some average nuclear density, is investigated. In Section 5 we present predictions of our model for the separated (e, e p) response functions for a 4 He target nucleus. Section 6 summarizes our findings and states our conclusions.…”

“…Next, we introduce the relativistic formulation of Glauber multiplescattering theory in Section 3. Section 4 is devoted to a presentation of results for the DiracGlauber phase for the nuclei 4 He, 12 C, 56 Fe and 208 Pb. Hereby, a relativistic independentparticle model will be adopted.…”

“…Most A(e, e p) calculations based on the Glauber approach are non-relativistic and factorized. A nonrelativistic Glauber model for modeling FSI effects in exclusive 4 He(e, e p) reactions was recently pointed out in Ref. [22].…”

“…The Dirac-Glauber phase is a function which accounts for all FSI effects when computing the A(e, e p) observables. The contribution of single-and multiple-scatterings is estimated for the target nuclei 4 He, 12 C and 208 Pb. Attention is paid to the role of relativistic effects when computing the impact of final-state interactions.…”

Relativistic formulation of Glauber theory for A(e,e′p) reactions

“…In particular, these correlations are at the origin of a long energy and momentum tail in the nuclear spectral function. Direct experimental evidence for these have been found in semi-exclusive A(e, e p) measurements [3,4].…”

“…The validity of a frequently adopted approximation, namely the replacement of the individual nucleon wave functions by some average nuclear density, is investigated. In Section 5 we present predictions of our model for the separated (e, e p) response functions for a 4 He target nucleus. Section 6 summarizes our findings and states our conclusions.…”

“…Next, we introduce the relativistic formulation of Glauber multiplescattering theory in Section 3. Section 4 is devoted to a presentation of results for the DiracGlauber phase for the nuclei 4 He, 12 C, 56 Fe and 208 Pb. Hereby, a relativistic independentparticle model will be adopted.…”

“…Most A(e, e p) calculations based on the Glauber approach are non-relativistic and factorized. A nonrelativistic Glauber model for modeling FSI effects in exclusive 4 He(e, e p) reactions was recently pointed out in Ref. [22].…”

“…The Dirac-Glauber phase is a function which accounts for all FSI effects when computing the A(e, e p) observables. The contribution of single-and multiple-scatterings is estimated for the target nuclei 4 He, 12 C and 208 Pb. Attention is paid to the role of relativistic effects when computing the impact of final-state interactions.…”

Relativistic formulation of Glauber theory for A(e,e′p) reactions