Abstract
It is proposed that very heavy ions (including uranium) be utilized to indúce fission through the Coulomb interaction only. Because the projectile moves slowly, the process is expected to be nearly adiabatic (no intrinsic excitation). Dynamical model calculations have been performed at zero impact parameter to determine the threshold energy, cross section and fragment angular distribution. Differential cross sections of hundreds of millibarns are calculated, and fission fragments are found to emerge preferentially at 90° in the pairframe. The calculations incorporate reasonable model data, but the equilibrium to-saddle distance Δβ is unknown. In order for fission to occur below the Coulomb barrier, Δβ must be greater than .15 in the case of Cf, for example. Rotational and vibrational excitation is discussed for energies below the fission threshold. A primary objective of the experiments would be to determine Δβ (and the shape of the energy-deformation curve). This would provide a severe test of various nuclear model theories.
to be published in Physical Review.
Lecture given at the VI.Internationalen Universitätswochen für Kernphysik, Schladming, 26 February–11 March 1967.
Operated by Union Carbide Corporation for the U.S. Atomic Energy Commission.
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© 1967 Springer-Verlag Wien
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Guth, E. (1967). Coulomb Fission by Very Heavy Ions. In: Urban, P. (eds) Special Problems in High Energy Physics. Acta Physica Austriaca, vol 4/1967. Springer, Vienna. https://doi.org/10.1007/978-3-7091-5485-4_12
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DOI: https://doi.org/10.1007/978-3-7091-5485-4_12
Publisher Name: Springer, Vienna
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