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Journal of Astrophysics & Aerospace Technology | ISSN: 2329-6542 | Volume 6
Planetary Science and Particle Physics
International Conference on
August 27-28, 2018 | Boston, USA
SunQM-1: Quantum mechanics of the Solar system in a {N,n//6} QM structure
Yi Cao
USA
F
inally, I find a way to extend Bohr's atom model (which was inspired by the Solar system structure) to our Solar system structure.
In this paper, I present that how I decoded the quantum mechanics for our Solar system by introducing a {N,n//6} QM structure
model. In the newly established Solar QM {N,n} structure, Sun core has a size of {0,1}, Sun surface has a size of {0,2}, Mercury, Venus,
Earth, and Mars are at {1,n=3..6}o orbits. Jupiter, Saturn, Uranus, Neptune, and Kuiper belt are at {2,n=2..6}o orbits. Oort cloud is at
{4,n=1..5}o orbits. There are four undiscovered planets/belts at orbits of {3,n=2..5}o. More interestingly, white dwarf, neutron star, and
black hole are assigned to {-1,1}, {-3,2} and {-3,1} in the same model. From these results, I constructed a Solar QM {N,n} structure
periodic table (similar to the chemical element’s periodic table). A Solar QM {N,n} structure periodic plot is also presented here
which shows some more detailed (and visualized) information.
yicaojob@yahoo.comJ Astrophys Aerospace Technol 2018, Volume 6
DOI: 10.4172/2329-6542-C2-021