69 research outputs found
Photon-induced two-nucleon knockout reactions to discrete final states
Cross sections and photon asymmetries of the exclusive 16O(\gamma,pn)14N and
16O(\gamma,pp)14C knockout reactions are calculated for transitions to the
low-lying discrete final states of the residual nucleus in the photon-energy
range between 100 and 400 MeV. Exclusive reactions may represent a test of
reaction mechanisms and a promising tool for investigating the dynamics of
nucleon pairs in different states. Cross sections and asymmetries for both
(\gamma,pn) and (\gamma,pp) turn out to be only slightly affected by
short-range correlations and dominated by two-body currents. Therefore,
two-nucleon knockout reactions induced by real photons appear well suited to
investigate the nuclear current and the selectivity of individual transitions
to its different components.Comment: 21 pages, 16 postscript figure
Neutrino-Nucleus Quasi-Elastic Scattering in a Relativistic Model
A relativistic distorted-wave impulse-approximation model is applied to
neutral-current and charged-current quasi-elastic neutrino-nucleus scattering.
The effects of final state interactions are investigated and the sensitivity of
the results to the strange nucleon form factors is discussed in view of their
possible experimental determinationComment: 7 pages, 3 figures Proc. of the XXV International Workshop on Nuclear
Theory, 26 June- 1 July, 2006 Rila, Bulgari
On the NN-final-state-interaction in the reaction
The influence of the mutual interaction between the two outgoing nucleons
(NN-FSI) in the reaction has been investigated.
Results for various kinematics are discussed. In general, the effect of
NN-FSI depends on kinematics and the chosen final state in the excitation
spectrum of .Comment: 12 pages Revtex including 4 postscript figure
The NN-final-state-interaction in two-nucleon-knockout reactions
The influence of the mutual interaction between the two outgoing nucleons
(NN-FSI) in electro- and photoinduced two-nucleon knockout from has
been investigated perturbatively. It turns out that the effect of NN-FSI
depends on the kinematics and on the type of reaction considered. In the
kinematics studied so far, the effect is larger in pp- than in pn-knockout and
in electron induced than in photoinduced reactions.Comment: 10 pages including 9 postscript figures, contribution to the 6th
workshop on "Electromagnetically Induced Two-Hadron Emission", Pavia,
September 24-27, 200
On the treatment of the -contribution in electromagnetic -knockout reactions
The treatment of the -current and its contribution in the exclusive
OC and OC knockout reactions are
investigated in combination with the effects of correlations.
Different parametrizations of the effective -current and different
treatments of correlations in the two-nucleon overlap function are considered.
The results are presented and discussed for a suitable choice of kinematics. It
is found that the investigation of different mutually supplementing kinematics
is necessary to resolve the uncertainties in the theoretical ingredients and
extract clear and unambiguous information on correlations.Comment: 15 pages, 9 figures, EPJA styl
Polarization observables in () reactions
The formalism of () reactions is given where the
incident photon is polarized and the outgoing nucleon polarization is detected.
Sixteen structure functions and fifteen polarization observables are found in
the general case, while only eight structure functions and seven polarizations
observables survive in coplanar kinematics. Numerical examples are presented
for the O() and O() reactions. The
transitions to the ground state of C and N are calculated in a
model where realistic short-range and tensor correlations are taken into
account for the pair, while short-range and long-range correlations are
included in a consistent way for pairs. The effects of the one-body and
two-body components of the nuclear current and the role of correlations in
cross sections and polarizations are studied and discussed.Comment: 27 pages, 16 figures (eps). Revised version. To be published in EPJ
One- and Two-Nucleon Structure form Green's Function Theory
We review some applications of self-consistent Green's function theory to
studies of one- and two-nucleon structure in finite nuclei.
Large-scale microscopic calculations that employ realistic nuclear forces are
now possible. Effects of long-range correlations are seen to play a dominant
role in determining the quenching of absolute spectroscopic factors. They also
enhance considerably (e,e'pn) cross sections in superparallel kinematics, in
agreement with observations.Comment: Proceedings of the International Symposium on "Forefronts of
Researches in Exotic Nuclear Structures" (Niigata2010)
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