5 research outputs found
Realistic calculations of Kbar-N-N, Kbar-N-N-N, and Kbar-Kbar-N-N quasibound states
Binding energies and widths of three-body KbarNN, and of four-body KbarNNN
and KbarKbarNN nuclear quasibound states are calculated in the hyperspherical
basis, using realistic NN potentials and subthreshold energy dependent chiral
KbarN interactions. Results of previous K^-pp calculations are reproduced and
an upper bound is placed on the binding energy of a K^-d quasibound state. A
self consistent handling of energy dependence is found to restrain binding,
keeping the calculated four-body ground-state binding energies to relatively
low values of about 30 MeV. The lightest strangeness -2 particle-stable Kbar
nuclear cluster is most probably KbarKbarNN. The calculated Kbar N -> pi Y
conversion widths range from approximately 30 MeV for the KbarNNN ground state
to approximately 80 MeV for the KbarKbarNN ground state.Comment: v3 matching journal publicatio
Approximate solution of the Duffin-Kemmer-Petiau equation for a vector Yukawa potential with arbitrary total angular momenta
The usual approximation scheme is used to study the solution of the
Duffin-Kemmer-Petiau (DKP) equation for a vector Yukawa potential in the
framework of the parametric Nikiforov-Uvarov (NU) method. The approximate
energy eigenvalue equation and the corresponding wave function spinor
components are calculated for arbitrary total angular momentum in closed form.
Further, the approximate energy equation and wave function spinor components
are also given for case. A set of parameter values is used to obtain the
numerical values for the energy states with various values of quantum levelsComment: 17 pages; Communications in Theoretical Physics (2012). arXiv admin
note: substantial text overlap with arXiv:1205.0938, and with
arXiv:quant-ph/0410159 by other author