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Inelastic scattering of 28.0 MeV protons on {56}Fe

Kumar A., Avasthi D. K., Tripathi A., Datta S. K., Govil I. M.

Phys. Rev. C: Nucl. Phys., vol: 65, num: 1, 14(5), published: , US


   Atomic nucleus.
      Nuclear reactions.
         Nuclear reactions induced by nucleons (theory).
            Elastic and inelastic nucleon scattering and (n, p), (p, n) reactions (classification by methods of description).
               Optical model for protons.

   Atomic nucleus.
      Nuclear reactions.
         Nuclear reactions induced by nucleons (theory).
            Elastic nucleon scattering (classification by reaction types).
               Proton scattering (A>40).

   Atomic nucleus.
      Nuclear reactions.
         Nuclear reactions induced by nucleons (theory).
            Inelastic nucleon scattering and (n, p), (p, n) (classification by reaction types).
               Inelastic proton scattering (A>40).

   Atomic nucleus.
      Nuclear reactions.
         Nuclear reactions induced by nucleons (theory).
            Elastic and inelastic nucleon scattering and (n, p), (p, n) reactions (classification by methods of description).
               Unified theories. Coupled channel method.

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Properties of particular nuclei (theory).
            Z=22÷26.

   Atomic nucleus.
      Nuclear structure.
         Structure of deformed nuclei.
            Calculations of properties of deformed nuclei (40<A≤ 200).

   Atomic nucleus.
      Penetration of nuclear particles and gamma-quanta through matter.
         Penetration of heavy charged particles (mesons, nucleons, hyperons, nuclei) through matter.
            Scattering (elastic, nonelastic).

   Atomic nucleus.
      Penetration of nuclear particles and gamma-quanta through matter.
         Penetration of heavy charged particles (mesons, nucleons, hyperons, nuclei) through matter.
            Secondary effects.
               

   Nuclear reactor physics.
      Nuclear power. Reliability and safety problems. Engineering problems.
         Nuclear energy and radiation utilization. Description and parameters of reactors, nuclear power stations and other nuclear installations.
            Electro-nuclear installations (nuclear fuel and radioactive wastes treatment, power production, isotopes production, etc.).

   Nuclear reactor physics.
      Experimental investigations (methods, results, analysis).
         Experimental techniques and methods. Planning of experiment and experimental data treatment.
            Particle sources.