Article citationsMore>>
Brusegan, A., Rohr, G., Shelley, R., Macavero, E., Van Der Vorst, C., Poortmans, F., Mewissen, I. and Vanpraet, G. (1994) Very High Resolution Transmission Measurements and Resonance Parameters of Ni58 and Ni60.
has been cited by the following article:
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TITLE:
Space-Time Description of Cross Sections and Durations of Neutron-Nucleus Scattering near 1 - 2 Resonances in the C- and L-Systems
AUTHORS:
V. S. Olkhovsky
KEYWORDS:
Space-Time Approach to Nuclear Collision, Time Delay, Time Advance, Transformations of Cross Sections from the C-System to the L-System, Interference Phenomena
JOURNAL NAME:
Open Access Library Journal,
Vol.2 No.7,
July
20,
2015
ABSTRACT:
The appearance of time advance (due to distortion by the non-resonant
background) instead of the expected time delay in the region of a
compound-nucleus resonance in the center-of-mass (C-) system is known. Here at
the same conditions we study cross sections and durations of the neutron-nucleus
scattering in the laboratory (L-) system. Here there are a review of papers
where it is shown that such time advance is a virtual paradox and in the
L-system the time-advance phenomenon does not occur and only the trivial time
delay is observed. At the same time the transformations from C-system into the
L-system appear to be different from the standard kinematical transformations
because in the C-system the motion of a compound nucleus is absent but it is
present in the L-system. Here we analyze the initial wave-packet motion (after
the collision origin) and the cross section in the laboratory (L-) system. Also
here (as physical revelations of profound general methodic and in very good
consistent accordance with the experiment) several results of the calculated
cross sections for the neutron-nucleus in comparison with the experimental data
in the L-system at the range of one or two
overlapped compound resonances are presented. It is shown in the
space-time approach that the standard cinematic transformations of cross
sections from the C-system to the L-system are not valid because it is
necessary to consider the center-of-mass motion in the L-system. Finally on a
correct self-consistent base of the space-time description of the nuclear processes
in the laboratory system with 3 particles in the final channel, the validity of
the former approach is shown, which is obtained for the space-time description
of the nuclear processes with 2-particle channels earlier.
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