DIAMOND IS AN EXCELLENT ELECTRICAL INSULATOR, WITH HIGH THERMAL CONDUCTIVITY. At higher pressures with trace amounts of heavy atoms like boron, diamond can be heated to ever higher temperatures, known stable up to 3,000 degrees C, and above. Scientists state "the core of a stripped down star would be mostly carbon, with a dash of oxygen. The mass of the object is under high pressure by its own jupiter sized gravity, likely causing the core to crystallize into diamond, as carbon does inside earth. The core of the star was and still is almost entirely a form of carbon, in this case lower temp diamond. Carbon transforms into complex graphene polymers, nanotubes, and quantum plasmonic graphene dots. Carbonaceous dusty plasmoid dots would form before buckyballs during high temp supernovas, and are likely involved in forming stars by conducting electric currents in protostar jets. These stars like our sun live steadily billions of years, and would not supernova to form pulsars or aka black holes, like the more massive hotter short lived protostars in spiral arms, that explode according to some theories, when they lose their carbon cores and are depleted of hydrogen gas. The role of carbon in the Universe, is highly organized by electromagnetic forces, manifesting as graphene polymer 3D multi-layer plasmonics, carbon nanotubes, that contain buckyballs, and perfectly formed quantum dots aka black holes. Low temp graphene quantum dots have fractal magneto-conductance in the presence of a perpendicular magnetic field, with a determined fractal dimension of 1.4 for graphene.
"Transformation of a Star Into A Planet in a Millisecond Pulsar Binary" by Bailes, Staffers
Univ. Manchester scientists state that "99.9% of the white dwarf's mass was removed by the pulsar 600,000 kilometers away, leaving only the stars diamond core orbiting every 2 hours and 10 minutes. Strong EM forces from the pulsar, rather then gravity, attracted the gas away from the white dwarf, leaving only the core. Pulsars are renowned for having incredibly strong EM forces. Diamond cores and neutron star cores likely circulate in galaxies, as nucleation accretion disks, and are reused to form stars on neutral accretion surfaces, when ionized charged plasma attracts charged particles, dust, and gases. The core is not a transformed star nor a planet, which conceals the issue, but a magnificent discovery of what a white dwarf star is made of inside. This however is deeply suppressed... It is obvious that stars form having carbon structured cores. Single layer graphene conducts electricity an order of magnitude greater then bilayer graphene. A semiconductor cannot have only a single layer of graphene. Diamond is an excellent insulator, and is involved in stellar plasma fusion, and not thermonuclear fusion by gravity. Superconduction in a superfluid has been proven in neutron stars. There is no resistance nor friction and perfect electrical current conductivity in a neutron star. Normal stars are not perfect superconductors, and are semiconductors. Obviously electric currents power neutron stars, and not gravity.
Nanometer sized DIAMONDS are believed to be a product of the newborn star. Our solar system meteorites sampled contained only 20 atoms of nanodiamonds, but were expected to be abundant.
The "only thing left" of a huge massive star is orbiting pulsar PSR J1719-1438 about 4,000 light years away. It is a DIAMOND STAR CORE, and NOT A PLANET. Benjamin Stappers says "the rarity of pulsars with planet-mass companions means that producing such "EXOTIC PLANETS" is the exception and not the rule, that requires special circumstances." The deliberate misrepresentation that this carbon star remnant was detected as a planet, is because big-bang gravity collaboration for recognition thrives among the real paid off pseudo-scientists of society who misinterpret results. Electromagnetic star formation and the common abundance of carbon atoms is clearly evident, because these carbon cores are entirely undetectable in outer space, except for this rare special circumstance, where the detection of an orbiting planet sized object orbiting a pulsar aligned with earth was possible. Carbon core stellar remnants obviously fill outer space, and have only recently been detected with new technology. Carbon core star remnants dynamically transform their structures into diamonds, graphenes, buckyballs, carbon nanotubes.. and flourish in outer space conditions, being largely responsible for carrying cosmic scale electric currents, and producing vast magnetic fields shaping and ruling the universe.
"Transformation of a Star Into A Planet in a Millisecond Pulsar Binary" by Bailes, Staffers
Univ. Manchester scientists state that "99.9% of the white dwarf's mass was removed by the pulsar 600,000 kilometers away, leaving only the stars diamond core orbiting every 2 hours and 10 minutes. Strong EM forces from the pulsar, rather then gravity, attracted the gas away from the white dwarf, leaving only the core. Pulsars are renowned for having incredibly strong EM forces. Diamond cores and neutron star cores likely circulate in galaxies, as nucleation accretion disks, and are reused to form stars on neutral accretion surfaces, when ionized charged plasma attracts charged particles, dust, and gases. The core is not a transformed star nor a planet, which conceals the issue, but a magnificent discovery of what a white dwarf star is made of inside. This however is deeply suppressed... It is obvious that stars form having carbon structured cores. Single layer graphene conducts electricity an order of magnitude greater then bilayer graphene. A semiconductor cannot have only a single layer of graphene. Diamond is an excellent insulator, and is involved in stellar plasma fusion, and not thermonuclear fusion by gravity. Superconduction in a superfluid has been proven in neutron stars. There is no resistance nor friction and perfect electrical current conductivity in a neutron star. Normal stars are not perfect superconductors, and are semiconductors. Obviously electric currents power neutron stars, and not gravity.
Nanometer sized DIAMONDS are believed to be a product of the newborn star. Our solar system meteorites sampled contained only 20 atoms of nanodiamonds, but were expected to be abundant.
The Serpens constellation of stars lies in our flat milky way disk, where most of the carbonaceous matter in the galaxy is found. The role of electric currents carried by carbon structures is strongly supported, by the find of a diamond star core.
5 nm diameter DIAMOND nanoparticles Metamaterials acoustical wave invisibility cloak by x-ray tomography from acoustically designed nanocomposite metamaterial. Three dimensional structures form by acoustical wave forces, just as supernovas produce shock waves and form carbon buckyballs. |
No comments:
Post a Comment