Proton - 18O elastic scattering cross sections at high energies

Ibishi, A. I.

doi:10.1063/1.1932983

Cited by 1 publication

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“…We follow here the analysis first described in refs. [3,4]. We write the nuclear wave function for the A-nucleon system in the form Ψ = Ψ (r 1 , .…”

Section: Calculation Of Nuclear Cluster Structure Of Nucleimentioning

confidence: 99%

“…The internal nuclear cluster wave functions of different nuclear cluster models (nuclear cluster isomers) of the same isotope are not equivalent if we take into account manybody forces, such as 3-body forces and 4-body forces [3,4,6,7]. Nuclear isomers of an element show the same chemical and biological behavior, but a different nuclear and radiation activity.…”

Section: Introductionmentioning

confidence: 99%

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The nuclear reaction model code MEDICUS

Ibishi

2007

Nd2007

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Abstract. The new computer code MEDICUS has been used to calculate cross sections of nuclear reactions. The code, implemented in MATLAB 6.5, Mathematica 5, and FORTRAN 95 programming languages, can be run in graphical and command line mode. Graphical User Interface (GUI) has been built that allows the user to perform calculations and to plot results just by mouse clicking. The MS Windows XP and Red Hat Linux platforms are supported. MEDICUS is a modern nuclear reaction code that can compute charged particle-, photon-, and neutroninduced reactions in the energy range from thresholds to about 200 MeV. The calculation of the cross sections of nuclear reactions are done in the framework of the Exact Many-Body Nuclear Cluster Model (EMBNCM), Direct Nuclear Reactions, Pre-equilibrium Reactions, Optical Model, DWBA, and Exciton Model with Cluster Emission. The code can be used also for the calculation of nuclear cluster structure of nuclei. We have calculated nuclear cluster models for some nuclei such as 177 Lu, 90 Y, and 27 Al. It has been found that nucleus 27 Al can be represented through the two different nuclear cluster models: 25 Mg + d and 24 Na + 3 He. Cross sections in function of energy for the reaction 27 Al( 3 He, x) 22 Na, established as a production method of 22 Na, are calculated by the code MEDICUS. Theoretical calculations of cross sections are in good agreement with experimental results. Reaction mechanisms are taken into account.

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“…We follow here the analysis first described in refs. [3,4]. We write the nuclear wave function for the A-nucleon system in the form Ψ = Ψ (r 1 , .…”

Section: Calculation Of Nuclear Cluster Structure Of Nucleimentioning

confidence: 99%