Gravitational Chemical Bond with Real Magnetic Charges and True Antielectrons ()
ABSTRACT
The detection by the author of real magnetic charges, as well as true
antielectrons in of atomic structures allowed him to establish that atomic
shells, as well as shells of nucleons are electromagnetic, and not electronic.
Namely electromagnetic shells are the sources of gravitational field which is
the vortex electromagnetic field. The elementary source of gravitational field
is the electromagnetic quasiparticle (S-Graviton) which consists of two coupled
dipoles (the magnetic and electric) rotating in antiphase in the same atomic or
nucleonic orbit. Electrons in atomic shells are rigidly embedded in the
compositions of S-Gravitons and, as a rule, cannot individually participate,
for example, in processes of interatomic chemical bonding. Depending on the
vector conditions the gravitational fields can be both paragravitational (PGF)
so and ferrogravitational (FGF). The overwhelming number of atomic shells and
all shells nucleons emit PGF. Between the masses (bodies, atoms, nucleons,
etc.) emitting of PGF is realized a force of gravitational “Dark energy” pressing
masses to each other. It is the compression of masses by forces of the
gravitational “Dark energy” that lies at basis Physics of chemical bond. Depending on implementation in
atoms of the effects intra-atomic gravitational shielding/lensing (IAGS/L)
discovered and investigated by the author, the gravitational interatomic
bonding mechanisms are divided into two groups: non-covalent bonds (IAGS
effect) and covalent bonds (IAGL effect). Within the framework of the
gravitational bond mechanism of the latter group which is implemented with
participation paragravitational orbitals, such chemical concept as valence
acquires a real physical meaning. The replacing the erroneous electronic
concept of chemical bonding by the gravitational concept implies replacing the
notion “electronegativity” of element by the notion the “gravitational
activity” while maintaining existing quantitative ability of atoms in molecules
to attract atoms of other elements.
Share and Cite:
Sizov, R. (2020) Gravitational Chemical Bond with Real Magnetic Charges and True Antielectrons.
Open Journal of Physical Chemistry,
10, 48-67. doi:
10.4236/ojpc.2020.101003.