A semiquantal evaluation of d2σ/dθ dE in DIC dynamically based on classical transport equations

W. Cassing; H. Friedrich

doi:10.1007/BF01441280

A semiquantal evaluation of d²σ/dθ dE in DIC dynamically based on classical transport equations

W. Cassing, H. Friedrich

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Abstract

The quantal double differential cross-section averaged over micro channels is parametrized in a way that accounts for the transfer of radial momentum and orbital angular momentum of relative motion of two colliding heavy ions into intrinsic degrees of freedom. The formfactors introduced are related to the solutions of classical Fokker-Planck equations and to semiclassical approximations of the phase shifts. An application of the model to⁴⁰Ar→²³²Th at E_lab=388 MeV which is based on familiar classical friction models and contains no further parameters yields a cross section d²σ/dθ dE in good overall agreement with the experimental data.

Original language	English
Pages (from-to)	359-366
Number of pages	8
Journal	Zeitschrift für Physik A Atoms and Nuclei
Volume	299
Issue number	4
DOIs	https://doi.org/10.1007/BF01441280
State	Published - Dec 1981
Externally published	Yes

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abstract = "The quantal double differential cross-section averaged over micro channels is parametrized in a way that accounts for the transfer of radial momentum and orbital angular momentum of relative motion of two colliding heavy ions into intrinsic degrees of freedom. The formfactors introduced are related to the solutions of classical Fokker-Planck equations and to semiclassical approximations of the phase shifts. An application of the model to40Ar→232Th at Elab=388 MeV which is based on familiar classical friction models and contains no further parameters yields a cross section d2σ/dθ dE in good overall agreement with the experimental data.",

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AU - Friedrich, H.

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AB - The quantal double differential cross-section averaged over micro channels is parametrized in a way that accounts for the transfer of radial momentum and orbital angular momentum of relative motion of two colliding heavy ions into intrinsic degrees of freedom. The formfactors introduced are related to the solutions of classical Fokker-Planck equations and to semiclassical approximations of the phase shifts. An application of the model to40Ar→232Th at Elab=388 MeV which is based on familiar classical friction models and contains no further parameters yields a cross section d2σ/dθ dE in good overall agreement with the experimental data.

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A semiquantal evaluation of d²σ/dθ dE in DIC dynamically based on classical transport equations

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