STARS & SUPERNOVAS

Stars form under strong magnetic fields, and not by gravity. Most astronomers today finally believe that magnetic fields dominate over gravity in star formation. New simulations predict there are over 50 new superfluid molecular hydrogen phases, of which some will condense into a superfluid by a phase transition of hydrogen gas under strong cosmic magnetic fields that form stars.  Complex plasmas behave and analog superfluids. Molecular hydrogen star formation theory is simple, logical, and the easiest way explainable, making it the best theory by applying Occam's razor.

Liquid oxygen is paramagnetic and circulates around the poles of protostars and star forming galaxies (see video)















Stars stream like beads on strings inside interstellar filaments that have a typical characteristic width of about 0.3 light years. Doris Arzoumanian says "these findings highlight that something important must be going on at this particular scale."





Most stars are inside the spiral arms of galaxy filaments, where they form and stream like beads on strings. Supernovas produce electric fields and magnetic shock waves that form new stars. Stars stream inside electric current carrying filaments on spinning magnetized bubbles, and follow the spin centers along comic filaments that intersect together at the galaxy center. 
Star superconducting electricity with magnetic field bubble

Star photos of animated gifs - click on links:

1) Star animation-Giphy.com

2)  Binary Star Accretion Disk



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Type II SUPERCONDUCTORS constrain the magnetic field in FILAMENTS surrounded by vortex currents.

Type II SUPERCONDUCTORS constrain the magnetic field in FILAMENTS surrounded by vortex currents.
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