Quantum Gravity and String Theory

   

Sunqm-1s1: the Dynamics of the Quantum Collapse (And Quantum Expansion) of Solar QM {N,n} Structure

Authors: Yi Cao

In this paper I study the evolution and dynamics of the Solar QM {N,n} structure. After discovered the Solar QM {N,n} structure, I immediately realized that the formation of our current Solar system was through a series of quantum collapse of pre-Sun ball's N super-shell from {6,1} to {0,1}. However, it took me quite a while to figure out what is the driving force for the quantized collapse: the collapse of {N,n=1..5}o super-shell increases the thermal pressure of {N-1,n=1..5}o super-shell and prevent it from immediate collapse. Then after some time the heat (and mass) losing in {N-1,n=1..5}o super-shell decreased its thermal pressure and trigged a new round of collapse. A switch from the cold-G r-track for N=4 and 3 super-shells to the hot-G r-track for N=1 and 0 super-shells caused a 26% of r length increase. This r-track change revealed that the Hydrogen fusion started right after {2,1}RF pre-Sun ball had formed. (The Hydrogen fusion's heat formed) ice-evap-line expended and passed Mars orbit {1,6}, and evaporated all ice mass within {1,6}RF ball and excited them to orbit {2,2}o and {2,3}o orbits. Therefore it formed the extraordinary large (ice) mass of Jupiter, and very large mass of Saturn. The original mass density as the function of r has been modeled out as D = 4.37E+28 / r^3.279 (kg/m^3). From it, I estimated that the original (ice) mass of Venus, Earth, Mars were 34x, 25x, 19x of the current Earth's mass. The original mass of Jupiter was only 10% of current one. So 90% of Jupiter's current (ice) mass was obtained from the original Venus, Earth, and Mars's orbit shells! The same model also predicted that the four undiscovered {3,n=2..5}o planets/belts will have mass around 12x, 7x, 5x, and 3x of Earth's mass. Asteroid belt is assigned to be at {1,8}o orbit. It is also interesting to see that the mass QM {N,n} structure collapse is accompanied by a heat QM {N,n} structure expansion in the Solar QM {N,n} structure dynamics.

Comments: 21 Pages.

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Submission history

[v1] 2018-05-04 14:27:15

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