Observations from a MFMP video of processes that have occurred inside the diamonds that comprise the LION reactor fuel suggests that magnetic flux tubes dissolve both protons and neutrons, absorb their energy content, and store their valance quarks until the flux tubes dissipate.
The chiral magnetic flux tube will hold onto these quarks while the chiral magnetic flux tube survives. When this tube ceases to exist, the quarks recombine into protons, neutrons, and mesons just like a quark gluon plasma will reform back into matter when that quark soup cools.
As the flux tube terminates, the quarks held in suspension by the flux tube recombine and reform protons and neutrons which then aggregate again into atoms. These atoms show transmutations into both differing isotope and completely new elements that are totally different from the original material feedstock.
This same matter disassociation mechanism may also be occurring in the Corona of the Sun. When solar flux tubes disaggregate through magnetic reconnection, a quark fusion process transmits the sequestered quarks back into He3, iron, titanium, nickel, oxygen, silicon, magnesium, calcium, aluminum among other elements. These transmuted elements are propelled into space and subsequently deposited by the solar wind into the lunar soil.
In more detail, Mass Coronal ejections seed He3 and iron into the interstellar medium.
Besides He3, the solar wind contains iron and these nano-iron particles make lunar soil magnetic.
https://science.nasa.gov/scien…06/04apr_magneticmoondust
Iron is produced by coronal mass ejections
https://www.everythingselectric.com/eie-4/
http://www.mps.mpg.de/Magnetic…rate-particles-on-the-Sun
Quote“Sudden particle emissions, in which our star repeatedly hurls large amounts of charged and uncharged particles into space, are still a mystery. Some of these particle flows are accompanied by violent solar flares, a sudden and local increase of the Sun’s brightness, and contain up to 10,000 times more helium-3 and up to 10 times more iron than the Sun's atmosphere. Why is this extremely rare helium isotope accelerated into space so efficiently? And why iron? How does the Sun supply these particles with the necessary energy to catapult them into space?”
Logic forces us to accept the reality that element transmutation is occurring within the solar flux tubes since the elements expelled from them are so much more abundant than the solar ambient.
Furthermore, as Holmlid has pointed out, fusion does not produce enough energy to accelerate these particles to the ultra-high speeds needed to reach the escape velocity of the Sun. There needs to be an energy accumulation mechanism to amplify and concentrate solar energy. It takes hundreds of millions of electrons volts for the Sun to eject matter into the solar wind. That energy comes from the binding energy derived from the dissolution of protons and neutrons that have been stored in the solar magnetic flux tubes which also support the transmutation of iron and He3 among many other elements generated by quark fusion.