Abstract
Shell model calculations of the structure of {sup 12}C have been made using diverse potential energy sets based upon the Nijmegen one boson exchange models of the hyperon-nucleon interaction. Transition density matrix elements for excitation of low lying hypernuclear states by strangeness changing reactions upon {sup 12}C have been extracted and used in analyses of (K{sup -},{pi}{sup -}) and ({pi}{sup +},K{sup +}) cross sections. Successful fits to data have been obtained using an Analytic Distorted Wave Approximation for the scattering amplitudes. 13 refs., 1 tab., 7 figs.
Citation Formats
Koetsier, D, and Amos, K.
Hypernuclear reactions in carbon 12.
Australia: N. p.,
1992.
Web.
Koetsier, D, & Amos, K.
Hypernuclear reactions in carbon 12.
Australia.
Koetsier, D, and Amos, K.
1992.
"Hypernuclear reactions in carbon 12."
Australia.
@misc{etde_10109201,
title = {Hypernuclear reactions in carbon 12}
author = {Koetsier, D, and Amos, K}
abstractNote = {Shell model calculations of the structure of {sup 12}C have been made using diverse potential energy sets based upon the Nijmegen one boson exchange models of the hyperon-nucleon interaction. Transition density matrix elements for excitation of low lying hypernuclear states by strangeness changing reactions upon {sup 12}C have been extracted and used in analyses of (K{sup -},{pi}{sup -}) and ({pi}{sup +},K{sup +}) cross sections. Successful fits to data have been obtained using an Analytic Distorted Wave Approximation for the scattering amplitudes. 13 refs., 1 tab., 7 figs.}
place = {Australia}
year = {1992}
month = {Dec}
}
title = {Hypernuclear reactions in carbon 12}
author = {Koetsier, D, and Amos, K}
abstractNote = {Shell model calculations of the structure of {sup 12}C have been made using diverse potential energy sets based upon the Nijmegen one boson exchange models of the hyperon-nucleon interaction. Transition density matrix elements for excitation of low lying hypernuclear states by strangeness changing reactions upon {sup 12}C have been extracted and used in analyses of (K{sup -},{pi}{sup -}) and ({pi}{sup +},K{sup +}) cross sections. Successful fits to data have been obtained using an Analytic Distorted Wave Approximation for the scattering amplitudes. 13 refs., 1 tab., 7 figs.}
place = {Australia}
year = {1992}
month = {Dec}
}