Quantum of Conversion: Neutrinos
October 7, 2024 1 minutes • 193 words
In 1644, Descartes described neutrinos emerging from sunspots as “thinner particles” of the 1st Element (Electromagnetism).
We revise this to mean the Weak Element (Weak Force) instead of Electromagnetism in order to match current findings.
This would give a neutrino 2 aether particles which rotate against each other in order to create a neutral charge.
However, this means that one particle will encounter friction from the W Boson.
To solve this, all neutrinos flip into a “left-handed” position. This is why right-handed neutrinos have never been found.
Having only 2 particles also makes it unstable. This is why it oscillates across space.
It also makes it very small. This is why neutrino detectors must be made up of atoms with dense nuclei such as Argon, such as in MicroBooNE.
Descartes explained that photons and neutrinos travel from star to star, exiting from one star’s ecliptic (sides) and entering through another star’s poles (top and bottom).
This creates an interstellar circuit or galactic information and energy network.
While photons are the key mechanism for crystal computers that can be used to overcome the limitations of Moore’s Law, neutrinos are the key to interstellar communication.