Detailed elaboration and general model of the electron treatment of surfaces of charged plasmoids (from atomic nuclei to white dwarves, neutron stars, and galactic cores). Self-condensation (self-constriction) and classification of charged plasma structures—plasmoids. Part II. Analysis, classification, and analytic description of plasma structures observed in experiments and nature. The shock waves of electric fields in stars

Einstein’s idea concerning the mass-energy equivalence is confirmed in a new form. The equivalence manifests itself in similar functionality in the processes of the pulsations (focusing and rebounding) of the “excessive” energy in the generalized Kepler 2D problem and the “excessive” mass in the Vysikaylo-Chandrasekhar 3D problem on the accumulation and dissipation of the de Broglie waves in quantum stars (the pulsing accretion of quantum stars) with mass more than that of Chandrasekhar (∼1.46 masses of the sun). A new mechanism (type) of a thermonuclear reactor at the surface of charged quantum stars and dense cores of normal stars and planets is proposed. The acceleration of electrons to MeV energies in the synergistic electric fields of uncompensated charged particles in the nuclei of giant plasmoids—quantum stars—and their transmutation into neutrons in the surface layer in the reactions with protons is the basis for such a mechanism. The problems concerning the stabilization of neutrons in relation to the β-disintegration of the neutrons on the surface of neutron stars and the keeping of high energy electrons in any CD structures with condensed media with a Fermi gas or a Fermi liquid have been solved.