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The relativistic mean field and some of its recent applications

Gambhir Y.K.\Bhagwat A.

Физ. элементар. частиц и атом. ядра, vol: 37, num: 2, 365-438, published: 01 April 2008,


   Atomic nucleus.
      Nuclear structure.
         Relativistic aspects of nuclear structure theory. Meson and quark degrees of freedom in nuclei.
            Relativistic equations and relativistic wave functions in nuclear structure theory.

   Atomic nucleus.
      Nuclear structure.
         Microscopic methods in nuclear structure theory (Hartree-Fock method, random phase approximation, etc.).
            General problems of the Hartree--Fock method.

   Atomic nucleus.
      Nuclear structure.
         Microscopic methods in nuclear structure theory (Hartree-Fock method, random phase approximation, etc.).
            Hartree--Fock calculations for nuclei.

   Atomic nucleus.
      Nuclear structure.
         Relativistic aspects of nuclear structure theory. Meson and quark degrees of freedom in nuclei.
            Reviews.

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Basic nuclear properties (theory).
            Binding energies and masses of nuclei. Problems of nuclear stability.

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Basic nuclear properties (theory).
            Nuclear density and charge density distributions. Nuclear radii.

   Atomic nucleus.
      Nuclear structure.
         General problems.

   Atomic nucleus.
      Nuclear structure.
         Cluster phenomena in nuclei. Cluster models.

   Atomic nucleus.
      Nuclear reactions.
         General problems of nuclear reaction theory.
            Optical model.

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Properties of particular nuclei (theory).
            Z>104.

   Atomic nucleus.
      Radioactive decay.
         α decay (theory).

   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).
               Neutron scattering (A ≤ 40).

   Atomic nucleus.
      Nuclear reactions.
         Nuclear reactions induced by nucleons (theory).
            Elastic nucleon scattering (classification by reaction types).
               Polarization phenomena.

   Atomic nucleus.
      Nuclear structure.
         Microscopic methods in nuclear structure theory (Hartree-Fock method, random phase approximation, etc.).
            Exactly solvable microscopic models.

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Basic nuclear properties (theory).
            Equilibrium shape of nuclei.

   Atomic nucleus.
      Nuclear structure.
         Shell model.
            Properties of single-particle shell-model states in spherical nuclei.

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Properties of particular nuclei (theory).
            Z=7, 8.

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Properties of particular nuclei (theory).
            Z=9÷12.

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Properties of particular nuclei (theory).
            Z=13÷18.

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

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Properties of particular nuclei (theory).
            Z=54÷59.

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Properties of particular nuclei (theory).
            Z=83÷91.

   Atomic nucleus.
      Nuclear reactions.
         Nuclear reactions induced by mesons and other particles. Muonic and hadronic atoms (theory).
            Interactions of kaons, antinucleons, neutrinos and other particles with nuclei.
               Interactions of antinucleons with nuclei.

   Atomic nucleus.
      Nuclear structure.
         Structure of deformed nuclei.
            Calculations of properties of deformed nuclei (A>200).

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Properties of particular nuclei (theory).
            Z=92÷97.

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Properties of particular nuclei (theory).
            Z=79÷82.

   Atomic nucleus.
      Nuclear structure.
         Structure of deformed nuclei.
            General problems.

   Atomic nucleus.
      Nuclear structure.
         Structure of deformed nuclei.
            Singlparticle states in deformed nuclei.

   Atomic nucleus.
      Basic nuclear properties. Properties of particular nuclei.
         Properties of particular nuclei (theory).
            Z=64÷70.

   Atomic nucleus.
      Nuclear reactions.
         Heavy ion induced nuclear reactions (theory).
            Reactions with radioactive heavy ions.

   Atomic nucleus.
      Nuclear reactions.
         Heavy ion induced nuclear reactions (theory).
            General problems.

   Atomic nucleus.
      Radioactive decay.
         Other modes of radioactive decay: proton, heavy (cluster), etc.).