Inelastic sum rule for high-energy hadron scattering and nucleon-nucleon correlations

“…The most important are general characteristics: density distributions (hence possible deformations) but not internal correlations. From the published analyses of hadron-nucleus scattering (see e.g., [S2], [15], [3]) one may conclude that (i) the shapes of target nuclei are the most important factors determining the cross sections (ii) the internal correlations of nucleons in the nucleus are unimportant for da^JcKl or da,.\ d9,.…”

“…They are of some importance for danr/dQ, (especially at small momentum transfers [15], [3]). The confrontation with experiment is impressive.…”

“…. 3. The theoretical analysis is at a very primitive stage and when the data improves a lot will remain to be done.…”

“…(b) The very high energy incident particles -may also be important for physicists working on nuclear structure-although this point does not seem to be well established (presumably due to poor energy resolutions of high energy beams) . Nevertheless, one still hopes to be able to learn something new, for example about short range nucleon correlation functions in target nuclei or about the presence of resonances in nuclear ground states [3,4]just to name two problems.…”

“…(c) One may also hope that, in the cases where the scattering from a nucleus cannot be reduced to the "elementary amphtudes" of the incident particle-target nucleon, some new physical situations may occur which stem from the complexity of the target. For example, in the case of ir-nucleus scattering in the region of the (3,3) resonance [5,6] one may hope to learn something about the nature of the (3, 3) resonance because the exclusion principle (due to the many particle structure of the target) may chstort the resonance and this distortion may depend on its internal structure.…”

Interactions of high energy particles with nuclei

“…The most important are general characteristics: density distributions (hence possible deformations) but not internal correlations. From the published analyses of hadron-nucleus scattering (see e.g., [S2], [15], [3]) one may conclude that (i) the shapes of target nuclei are the most important factors determining the cross sections (ii) the internal correlations of nucleons in the nucleus are unimportant for da^JcKl or da,.\ d9,.…”

“…They are of some importance for danr/dQ, (especially at small momentum transfers [15], [3]). The confrontation with experiment is impressive.…”

“…. 3. The theoretical analysis is at a very primitive stage and when the data improves a lot will remain to be done.…”

“…(b) The very high energy incident particles -may also be important for physicists working on nuclear structure-although this point does not seem to be well established (presumably due to poor energy resolutions of high energy beams) . Nevertheless, one still hopes to be able to learn something new, for example about short range nucleon correlation functions in target nuclei or about the presence of resonances in nuclear ground states [3,4]just to name two problems.…”

“…(c) One may also hope that, in the cases where the scattering from a nucleus cannot be reduced to the "elementary amphtudes" of the incident particle-target nucleon, some new physical situations may occur which stem from the complexity of the target. For example, in the case of ir-nucleus scattering in the region of the (3,3) resonance [5,6] one may hope to learn something about the nature of the (3, 3) resonance because the exclusion principle (due to the many particle structure of the target) may chstort the resonance and this distortion may depend on its internal structure.…”

Interactions of high energy particles with nuclei

Multiple diffractive analysis of elastic and inelastic scattering by 1 GeV protons on 12C, 58Ni, and 208Pb

Optical-model analysis of twoρ0-photoproduction experiments