The "TETRAQUARK" is a stable particle composed of two matter particles and two anti-matter particles. The Standard Model did not have them, and it really shows that the properties of outer space are also largely unknown.
Skyrmion Vortex Galaxy Model
Ferromagnetic hot gaseous iron, which is ejected by supernovas, was discovered in 2008 to be a superconductor of electricity. Red colored iron in galactic ejection jets originates outside the accretion disk. The accretion disk rotates in a plasma skyrmion vortex. Stellar orbits around the galaxy are "locked in place" at a distance from the center by magnetic levitation above the accretion disk of a "black hole" comprised of superfluid helium. M.I.T. has proven magnetic levitation is anti-gravity by using mathematical equations. The colder the black hole, the larger it is, with higher helium purity. Only the accretion disk can be observed in all black holes, revealing that it's entirely an electromagnetic phenomena.
Birkeland Currents analog Magnetic Vortices
The Milky Way's central region transports 10^55 Ergs of magnetic energy outwards into the galactic halo, shows Carretti. Magnetized outflows follow the magnetic field lines. This enormous amount of magnetic energy is highly efficient at organizing cosmic scale nano-structures in cold vacuum, like in labs. That's 10 to the 55th power of magnetic energy in Ergs, which is genuine scientific evidence far more pertinent than all the dark matter cosmologies not using it. Any cosmology must explain it by using electromagnetism, instead of resorting to inventing theoretical dark matter and dark energy. The mysterious cold spots in the CMB are far older than the big-bang event, absurdly labeled as the birth of the universe by star formation minutes afterwards. Stars require cold dense gaseous filaments to condense, which are the enormous vast cold spots in the CMB that preexisted the Big-bang.
The Milky Way's bubble of magnetic energy is equivalent to 100,000 supernovas, and most galaxies are nearby other galaxies in the universe.
Buckyballs flourish in outer space, and are ideal electromagnetic metamaterials. Silicene is silicon that mimics the properties of graphene. Overlapping together different atoms into single atom thick layers produces profoundly new properties in labs and outer space. Membranes surround galaxies.
|Galaxy IC342 Membrane of Carbon Nanotubes, Buckyballs, and other combinations of Metamaterials|