15 research outputs found
Selectivity of the Nucleon Induced Deuteron Breakup and Relativistic Effects
Theoretical predictions for the nucleon induced deuteron breakup process
based on solutions of the three-nucleon Faddeev equation including such
relativistic features as the relativistic kinematics and boost effects are
presented. Large changes of the breakup cross section in some complete
configurations are found at higher energies. The predicted relativistic
effects, which are mostly of dynamical origin, seem to be supported by existing
data.Comment: 4 pages, 4 figure
Three-Nucleon Photodisintegration of 3He
The three-nucleon photodisintegration of 3He has been calculated in the whole
phase space using consistent Faddeev equations for the three-nucleon bound and
scattering states. Modern nucleon-nucleon and 3N forces have been applied as
well as different approaches to nuclear currents. Phase space regions are
localized where 3N force effects are especially large. In addition
semi-exclusive cross sections for 3He(gamma,N) have been predicted which carry
interesting peak structures. Finally some data for the exclusive 3N breakup
process of 3He and its total breakup cross section have been compared to
theory.Comment: 28 pages, 6 png figures, 11 ps figures, modified version with changed
figures, conclusions unchanged, to appear in Phys.Rev.
Three-Nucleon Forces from Chiral Effective Field Theory
We perform the first complete analysis of nd scattering at
next-to-next-to-leading order in chiral effective field theory including the
corresponding three-nucleon force and extending our previous work, where only
the two-nucleon interaction has been taken into account. The three-nucleon
force appears first at this order in the chiral expansion and depends on two
unknown parameters. These two parameters are determined from the triton binding
energy and the nd doublet scattering length. We find an improved description of
various scattering observables in relation to the next-to-leading order results
especially at moderate energies (E_lab = 65 MeV). It is demonstrated that the
long-standing A_y-problem in nd elastic scattering is still not solved by the
leading 3NF, although some visible improvement is observed. We discuss
possibilities of solving this puzzle. The predicted binding energy for the
alpha-particle agrees with the empirical value.Comment: 36 pp, 20 figure
Effects of the magnetic moment interaction between nucleons on observables in the 3N continuum
The influence of the magnetic moment interaction of nucleons on
nucleon-deuteron elastic scattering and breakup cross sections and on elastic
scattering polarization observables has been studied. Among the numerous
elastic scattering observables only the vector analyzing powers were found to
show a significant effect, and of opposite sign for the proton-deuteron and
neutron-deuteron systems. This finding results in an even larger discrepancy
than the one previously established between neutron-deuteron data and
theoretical calculations. For the breakup reaction the largest effect was found
for the final-state-interaction cross sections. The consequences of this
observation on previous determinations of the ^1S_0 scattering lengths from
breakup data are discussed.Comment: 24 pages, 6 ps figures, 1 png figur
Three-Nucleon Force Effects in Nucleon Induced Deuteron Breakup: Comparison to Data (II)
Selected Nd breakup data over a wide energy range are compared to solutions
of Faddeev equations based on modern high precision NN interactions alone and
adding current three-nucleon force models. Unfortunately currently available
data probe phase space regions for the final three nucleon momenta which are
rather insensitive to 3NF effects as predicted by current models. Overall there
is good to fair agreement between present day theory and experiment but also
some cases exist with striking discrepancies. Regions in the phase space are
suggested where large 3NF effects can be expected.Comment: 33 pages, 24 ps figures, 9 gif figure
Three-nucleon force effects in the analyzing powers of the dp breakup at 130 MeV
A measurement of the analyzing powers for the 1H(~d, pp)n breakup reaction at 130MeV polarized deuteron beam energy was carried out at KVI Groningen. The experimental setup covered a large fraction of the
phase space. Obtained tensor analyzing powers T22 for selected kinematical configurations have been compared to theoretical predictions based on various approaches: the rigorous Faddeev calculations using the realistic nucleon–nucleon potentials with and without three nucleon force (3NF) models, predictions of the chiral perturbation theory, and coupled channel calculations with the explicit degrees of freedom. In the presented
configurations the results of all predictions are very close to one another and there are no significant 3NF influences. Not all of the data can be satisfactory reproduced by the theoretical calculations
Nucleon-deuteron elastic scattering as a tool to probe properties of three-nucleon forces
Faddeev equations for elastic Nd scattering have been solved using modern NN
forces combined with the Tucson-Melbourne two-pion exchange three-nucleon
force, with a modification thereof closer to chiral symmetry and the Urbana IX
three-nucleon force. Theoretical predictions for the differential cross section
and several spin observables using NN forces only and NN forces combined with
three-nucleon force models are compared to each other and to the existing data.
A wide range of energies from 3 to 200 MeV is covered. Especially at the higher
energies striking three-nucleon force effects are found, some of which are
supported by the still rare set of data, some are in conflict with data and
thus very likely point to defects in those three-nucleon force models.Comment: 30 pages, 14 Postscript figures; now minor changes in figures and
reference
Three-Nucleon Force Effects in Nucleon Induced Deuteron Breakup: Predictions of Current Models (I)
An extensive study of three-nucleon force effects in the entire phase space
of the nucleon-deuteron breakup process, for energies from above the deuteron
breakup threshold up to 200 MeV, has been performed. 3N Faddeev equations have
been solved rigorously using the modern high precision nucleon-nucleon
potentials AV18, CD Bonn, Nijm I, II and Nijm 93, and also adding 3N forces. We
compare predictions for cross sections and various polarization observables
when NN forces are used alone or when the two pion-exchange Tucson-Melbourne
3NF was combined with each of them. In addition AV18 was combined with the
Urbana IX 3NF and CD Bonn with the TM' 3NF, which is a modified version of the
TM 3NF, more consistent with chiral symmetry. Large but generally model
dependent 3NF effects have been found in certain breakup configurations,
especially at the higher energies, both for cross sections and spin
observables. These results demonstrate the usefulness of the kinematically
complete breakup reaction in testing the proper structure of 3N forces.Comment: 42 pages, 20 ps figures, 2 gif figure
Electron and Photon Scattering on Three-Nucleon Bound States
A big spectrum of processes induced by real and virtual photons on the 3He
and 3H nuclei is theoretically investigated through many examples based on
nonrelativistic Faddeev calculations for bound and continuum states. The modern
nucleon-nucleon potential AV18 together with the three-nucleon force UrbanaIX
is used. The single nucleon current is augmented by explicit pi- and rho-like
two-body currents which fulfill the current continuity equation together with
the corresponding parts of the AV18 potential. We also employ the Siegert
theorem, which induces many-body contributions to the current operator. The
interplay of these different dynamical ingredients in the various
electromagnetic processes is studied and the theory is compared to the
experimental data. Overall we find fair to good agreement but also cases of
strong disagreement between theory and experiment, which calls for improved
dynamics. In several cases we refer the reader to the work of other groups and
compare their results with ours. In addition we list a number of predictions
for observables in different processes which would challenge this dynamical
scenario even more stringently and systematically.Comment: 154 pages, 80 figures includes as ps files, 21 additional figures as
jpeg file