The review of the results of time analysis at the
range of high-energy nuclear collisions (with the bombarding-particle energies
near 0.1 - 10 GeV/nucleon) is presented. It was shown that the formation of time resonances (explosions) in the
decays of compound nuclei or final clots at the range of dense strongly
overlapped energy resonances was possible. These time resonances rather well
explain a lot of the experimental data.
Cite this paper
Olkhovsky, V. S. (2014). On Time Resonances (Explosions) in High-Energy Nuclear Collisions. Open Access Library Journal, 1, e886. doi: http://dx.doi.org/10.4236/oalib.1100886.
Gosset, J., Gutbrod, H., Meyer, W., etal. (1977) Central Collisions of Relativistic
Heavy Ions. Physical Review C, 16, 629. http://dx.doi.org/10.1103/PhysRevC.16.629
Westfall, G., Sexstro, R., Poskanzer, A.,etal. (1978) Energy Spectra of Nuclear Fragments Produced by
High Energy Protons. Physical Review C, 17, 1368. http://dx.doi.org/10.1103/PhysRevC.17.1368
Kaufman, S. and Steinberg, E. (1980) Cross-Section
Measurements of Nuclides Formed by the Reaction of 0.20-6.0 GeV Protons with
Au197. Physical Review C, 22, 167. http://dx.doi.org/10.1103/PhysRevC.22.167
Fortney, D. and Porile, N. (1980) Angular
Distributions of Sc Fragments from the Interaction of U238 with 0.8-400 GeV
Protons. Physical Review C, 21, 2511. http://dx.doi.org/10.1103/PhysRevC.21.2511
Sandoval, A., Gutbrod, H., Meyer, W., et al. (1980)Spectra of p, d, and t from
Relativistic Nuclear Collisions.Physical Review C, 21, 1321. http://dx.doi.org/10.1103/PhysRevC.21.1321
Alba, R., Coniglione, R., Del Zoppo, A., et al. (1994) On the Origin of Fast Proton Emission in
Intermediate Energy Heavy Ion Collisions. Physics Letters B,322, 38-42. http://dx.doi.org/10.1016/0370-2693(94)90488-X
Chen, K., Fraenkel, Z., Friedlander, G., et
al. (1968) VEGAS: A Monte
Carlo Simulation of Intranuclear Cascades. Physical Review, 166, 949. http://dx.doi.org/10.1103/PhysRev.166.949
Izumo, K. and Araseki, H. (1983) Time
Compound Nucleus for High Energy Nuclear Reactions. Progress of Theoretical Physics, 69, 158-170. http://dx.doi.org/10.1143/PTP.69.158
Goto, T.,
Yamaguchi, K. and Naka, S. (1980)The Time as an Observable in Quantum Mechanics. Progress
of Theoretical Physics, 64, 1-17. http://dx.doi.org/10.1143/PTP.64.1
Olkhovsky, V.S. (1984) Investigation of Nuclear Reactions and Decays by Analysis of
Their Duration. Soviet Journal of Particles and
Nuclei, 15, 130-148.
Lyuboshitz, V.L. (1978) On Duration of Nuclear Reactions under Conditions
of the Strong Overlapping of the Resonance Levels. Soviet Journal of Nuclear Physics, 27, 948-955.
D’Arrigo, A., Giardina, G., Taccone, A., Hassani, G. and
Olkhovsky, V. (1993) A Way to Evaluate the Level Density, Total
Width and Compound-Nucleus Decay Functions in the Range of Unresolved
Resonances. International Journal of Modern Physics E, 2, 809-820.
Olkhovsky, V.S. and Omelchenko, S.A. (1996) Joint
Time-Evolution and Statistical Energy-Resonance Analysis of High-Energy Nuclear
Collisions and Possible Phenomena of Time Resonances. In: Giardina, G., Fazio, G. and Lattuada, M.,
Eds., Brolo, 15-19 October 1996, World Scientific, 410-420.
Olkhovsky, V.S.,
Dolinska, M.E. and Omelchenko, S.A.
(2012) On the Cross Section and Duration of the
Neutron- Nucleus Scattering with a Resonance, Distorted
by a Non-Resonant Background, in the Center-of-Mass System and Laboratory
System. Proceedings of the 4th International Conferenceon Current Problems in Nuclear
Physics and Atomic Energy, Kyiv, 3-7
September 2012, 198-201.
Olkhovsky, V.S., Dolinska, M.E. and Omelchenko, S.A. (2009) Phenomena of
Time Resonances Explosions for the Compound-Clot Decays in High-Energy Nuclear
Reactions. 15 p.