2 research outputs found
Linking the exotic structure of C to its unbound mirror Na
The structure of C is used to define a nuclear interaction that,
when used in a multichannel algebraic scattering theory for the C
system, gives a credible definition of the (compound) excitation spectra. When
couplings to the low-lying collective excitations of the C-core are
taken into account, both sub-threshold and resonant states about the
C threshold are found. Adding Coulomb potentials to that nuclear
interaction, the method is used for the mirror system of Ne to
specify the low-excitation spectrum of the particle unstable Na. We
compare the results with those of a microscopic cluster model. A spectrum of
low excitation resonant states in Na is found with some differences to
that given by the microscopic-cluster model. The calculated resonance
half-widths (for proton emission) range from to keV.Comment: 13 pages, 5 figure