Skyrmion Crystals and Magnetic Vortices Could be the Quantum Lattice of the Universe

Skyrmion vortex

Skyrmions align with a magnetic field in many kinds of ferromagnetic metamaterials yet to be discovered. The discovery of room temperature skyrmions means that they are everywhere, and constantly emerge and merge together naturally by forces of nature, in nanoscale and cosmic scale metamaterials structuring galaxies in the universe by electromagnetism. Skyrmions are magnetic vortex state swirls that form a crystal lattice. Monopoles of anti-matter spiral along magnetic field lines by 3-D vortex rotation. Anti-matter and matter together could be the fourth dimension of time, where both the past and future can arise or vanish, inside and outside innumerably many three dimensional skyrmion lattices. Every particle has it's anti-particle. Lattices usually are shaped differently by their symmetry for different molecules.

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. 

X-rays and Jets

The broad iron K line X-ray emission is the accepted spectral signature of a rotating black hole, and the source hovers at some height above the accretion disk, says Chris Reynolds.  Supernovas eject iron and a galaxy is a collective organization of plasma stars, gases, and dusts.

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

Buckyballs stacked like crates of oranges

Hydrogen Atom's Energy Waves are Self-Similar to Solar Systems and Galaxies

Hydrogen Atoms Imaged by Taking Snapshots of Electrons Mathematically Analog the Solar System's Trojan Asteroids Orbiting the Sun, and Mysterious Rings That Surround Galaxies

Ring Galaxy

A hydrogen nucleus (proton) with many different orbiting electron(s) has a self-similar fractal structure, that analogs the structure of the solar system, and a galaxy. 99.8 % of atoms in the universe are hydrogen.
Quantum Microscope Films Hydrogen Atom

Penumbra of a dense plasma focus by 174,000 amps of electric current is self-similar in structure with many cosmic objects, including spinning neutron stars, protoplanetary disks, and ring galaxies. Quantum fractal cosmology is based on size-invariant laws.

Sunny side up orientation view of a spiral galaxy

Trojan asteroids orbiting the sun mathematically analog an atom's electrons

Accretion of Dust

Solar system bubble

 Self-similar organization by fractal hierarchy - Planetary Magnetospheres, Solar system bubble, supernova bubble, local group bubble, galactic bubble, and galaxy cluster bubbles.
Supernovas eject both hot and cold clumps of matter. The solar system is believed to have formed by a supernova. Stars form in cold dense regions inside filaments. A galaxy is a collective supernova phenomena.

The Crab Nebula supernova near Earth ejects relativistic magnetized hot and cold particles that follow the magnetic field lines of the Milky Way, leading into the galactic jet of electricity and Birkeland currents. Galactic jets and Birkeland currents are almost entirely responsible for the galaxy's rotation and formation of it's magnetic field.

Collisional galaxies are also called "interacting galaxies" and have enormous amounts of  supernovas producing strong plasma winds and magnetic shock pulses known as Alfven waves. When a star goes supernova it produces as much radiation in a few thousand years that  equals it's lifetime.  

<---Supernova in lower right image

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                                                          Bubbles & Jets    Protostar protoplanetary disk / Ring galaxy

Protoplanetary disk of protostar J 1604

Dying red giant Betelgeuse

The newly discovered particle having both two stable matter and anti-matter particles is called a "TetraQuark" and has huge implications for an emerging electromagnetic and magnetricity based cosmology. Magnetic currents can flow like electric currents. The properties of outer space are greatly unknown, so dark energy is the accepted term for big-bang institutions. By misleading the public taxpayers, they will get lots of money by the governments. They all say that no private enterprise would ever spend their money researching, hunting for dark matter and dark energy.  Billions of taxpayer dollars have already been wasted trying to detect gravity waves. There are two reasons for this blog, one of which is to inform taxpayers that their politicians need to change, and stop spending billions on ridiculous fake dark matter theories.   

Magnetosphere 3D animation

Holographic Hydrogen Atom

Black Holes Grow Mass by Feeding on Swirling Dense Cold Gaseous Filaments Containing Superfluid Helium

Kyle Stewart's computer simulation shows how Galaxies grow by feeding on cold gas swirling into the theoretically inferred singularity region at the galactic core center. Stars form by condensation inside cold filaments, especially near galaxy centers. Stewart writes that "Galaxies came to be from bits of matter that were connected together by filaments." Cold gas follows the filaments and flows into the galaxy center faster than previously believed, and dark matter also funnels faster than previously believed into the galaxy center along the filaments. It's just as if the cold magnetized plasma gaseous filaments actually produce their need for inventing and attaching a dark matter gravitational force. Cold filaments containing single atom thick liquid helium atoms have inherent magnetic levitation phenomena, that can fully refute and explain away the problematic dark matter mystery and gravitational singularity.

Cold Gas Filaments Swirl Into a Singularity to Feed Growing "Black Holes" finds Kyle Stewart. 

Cold Fronts Shape the Formation of Galaxies - Plasma astrophysics is the realm for new cosmology.
"Sloshing Cold Fronts in Galaxy Groups like IC 1860 Shape New Formation Models"

Video: Quantum Vortices in Superfluid Helium mathematically analogs relativity, mimicking gravitational black hole physics. Cosmic scale self-similar galactic filaments are in a vortex state, that compares to the physics of quantum vortices in superfluid helium. Magnetic levitation phenomena of superfluid helium is well demonstrated in labs. Cold filaments connect to spinning galaxy superfluid core regions shaping cosmic phenomena by magnetic fields, instead of by dark matter and black holes. Quantum vortices carry the angular momentum of the superfluid, and are theoretically similar to a superconductor's flux lines that carry the magnetic field created by electric current traveling through them. Electromagnetism shapes the Universe.

Spiraling Cold Gas Funnels Into Theoretically Unseen Black Holes. Helium-4 atoms behave as a single entire whole collective entity, when condensing into a superfluid. Filaments connect together the spiral arms of a galaxy with it's spinning black hole core region.

It's All "Hot Air" That Galaxies Form by Gravity!! 

The previous standard gravity model of galaxy formation held that hot gas sank inwards into the centers of galaxies from all directions and got hotter. Cold-Mode theory shows gas is not being heated by gravitational contraction and collapse. New cosmological models require the existence of superfluid helium as constituents for the formation of stars and galactic black hole inferred centers. The phase change of liquid to superfluid helium just below 2.17 degrees Kelvin involves no latent heat, nor any specific volume change. No heat is released by the cold gaseous filament during the phase change of helium.

Kostas Skenderis links Negatively Curved Space-Time and Flat Space-Time, with the Gregory Laflamme instability. New Mathematical Model Links Negatively Curved Space-Time and Flat Space-Time

The Gregory Laflamme instability grows stronger by spin and rotation, breaking up a large superfluid helium comprised black hole into many smaller self-similar fractal droplets. It is a phase change resembling a stream of water breaking up into water droplets, or superfluid helium. Black holes were discovered to break apart into smaller ones, which remained unexplainable until recent discoveries are applied to cosmology.

Cold plasma near 1 degree kelvin under an electric field will collectively oscillate electrons in resonance and produces a strong electric current and magnetic field. Nebulae contain cold filaments that reach deep inside to the center to form stars that are difficult to see forming. Hot plasma is a good conductor of electricity, but cold plasma is a friction free superconductor of electricity that does much more than just analog Einstein's relativity theory. Cold plasmas, rather than hot, are largely responsible for shaping and organizing cosmic structures by their strong vast electric and magnetic fields.