Open AccessOn the Role of Large Nuclear Gravity in Understanding Strong Coupling Constant, Nuclear Stability Range, Binding Energy of Isotopes and Magic proton numbers – A Critical Review
Author(s) -
U. V. S. Seshavatharam,
S. Lakshminarayana
Publication year - 2019
Publication title -
journal of nuclear physics, materials sciences, radiation and applications
Language(s) - English
Resource type - Journals
eISSN - 2321-9289
pISSN - 2321-8649
DOI - 10.15415/jnp.2019.62024
Subject(s) - physics , coupling constant , nuclear binding energy , magic (telescope) , nuclear force , binding energy , planck scale , nuclear physics , gravitation , proton , isotope , range (aeronautics) , atomic nucleus , quantum , quantum gravity , quantum mechanics , nucleon , materials science , composite material
With reference to our earlier published views on large nuclear gravitational constant Gs, nuclear elementary charge es and strong coupling constant αs ≅ e/es 2, in this paper, we present simple relations for nuclear stability range, binding energy of isotopes and magic proton numbers. Even though ‘speculative’ in nature, proposed concepts are simple to understand, easy to implement, result oriented, effective and unified. Our proposed model seems to span across the Planck scale and nuclear scale and can be called as SPAN model (STRANGE* physics of atomic nucleus)