Abstract
The transition from the resonance reaction mechanism at low level density to the direct reaction mechanism at high level density is investigated by means of numerical results obtained from microscopic calculations for nucleon-induced reactions. The transition takes place rather sharply at GAMMA approx. = D-bar. Here, two types of motion of the nucleons exist simultaneously: a motion in long-living states which are near equilibrium and a motion in short-living states which are far from equilibrium. A formation of order out of chaos takes place only in the open quantum mechanical nuclear system. It is caused by quantum fluctuations via the continuum.
Citation Formats
Rotter, I.
Order out of chaos in atomic nuclei.
United Kingdom: N. p.,
1988.
Web.
Rotter, I.
Order out of chaos in atomic nuclei.
United Kingdom.
Rotter, I.
1988.
"Order out of chaos in atomic nuclei."
United Kingdom.
@misc{etde_6951348,
title = {Order out of chaos in atomic nuclei}
author = {Rotter, I}
abstractNote = {The transition from the resonance reaction mechanism at low level density to the direct reaction mechanism at high level density is investigated by means of numerical results obtained from microscopic calculations for nucleon-induced reactions. The transition takes place rather sharply at GAMMA approx. = D-bar. Here, two types of motion of the nucleons exist simultaneously: a motion in long-living states which are near equilibrium and a motion in short-living states which are far from equilibrium. A formation of order out of chaos takes place only in the open quantum mechanical nuclear system. It is caused by quantum fluctuations via the continuum.}
journal = []
volume = {14:7}
journal type = {AC}
place = {United Kingdom}
year = {1988}
month = {Jul}
}
title = {Order out of chaos in atomic nuclei}
author = {Rotter, I}
abstractNote = {The transition from the resonance reaction mechanism at low level density to the direct reaction mechanism at high level density is investigated by means of numerical results obtained from microscopic calculations for nucleon-induced reactions. The transition takes place rather sharply at GAMMA approx. = D-bar. Here, two types of motion of the nucleons exist simultaneously: a motion in long-living states which are near equilibrium and a motion in short-living states which are far from equilibrium. A formation of order out of chaos takes place only in the open quantum mechanical nuclear system. It is caused by quantum fluctuations via the continuum.}
journal = []
volume = {14:7}
journal type = {AC}
place = {United Kingdom}
year = {1988}
month = {Jul}
}