Saturday, May 12, 2012

Silicene Electrical Conductivity Properties Mimics Graphene EM Cosmology

Stellar fractal silicon sandstorm by stars ejecting silicates
Fractal Silicon Nautilus Galaxy
Nautilus Galaxy NGC 772
Silicene is the cosmic superstructural fractal equivalent of graphene (Graphene EM Fractal Cosmology)  Single atomic hexagonal planes of silicon atoms are in a corrugated honeycomb structure that mimics the electrical conductivity properties of graphene, the best conductor of electricity known. Patrick Vogt created silicene by condensing (cooling) silicon vapor onto a silver plate, or metal. Silicon forms concentric rings inside the cores of dying red giant stars, and cosmic silicate dusts in molecular clouds helps form new stars.















A silicene two-dimensional sheet, rather than a three-dimensional silicon disordered crystal structure like quartz, has a buckled 2D honeycomb structure in which a few atoms are arranged above and below distinct energies, with applied voltage they jump across the gap allowing silicene to serve as an on-off transistor. The next goal is to grow silicene on insulators without attachment to silver metal. Outer space conditions are ideal for forming and organizing vast scale carbon and silicon 3D structures by electromagnetism. Proven examples are 3D solid particle buckyballs discovered near stars filling volumes larger than mount everest, that could only form by electromagnetism, and not by gravity.


fractal Si nanotechnology


Computer simulations reveal that some of the silicon dust grains will evaporate before being ejected by a star. Most silica ejected in the stellar superwind is about 300 nm sized silicon that forms molecular clouds and nebulae. Vaporized silicon ejected by stars could easily form vast two dimensional fractal hexagonal atomic planes of aligned silicene atoms along thin intersecting cosmic filaments that conduct electricity. Much of the sun's surface consists of high temperature filaments composed of single atoms of ionized gas and metals.  
Silicon Maser Stars 
Silicon Masers in Red Giant Stars
Holographic Fractal Red Giant Star Dust Shell 
red giant star fractal dust shell
Supernova black hole silicon containing core absorbs visible light
Silicon nanospheres 100 and 200 nm diameters absorb cloak visible light. Larger spheres form when laser pulses blast silicon particles which vaporize and condense into nanospheres.
Silicene conducts electricity around star disks 
SiO circumstellar ring shells surround red giant stars. Silicon monoxide exhibits masing behavior like a microwave laser, producing radio emission spots at 3.5 mm and 7,5 mm wavelengths. SiO is a gas tracer of molecular outflows of bipolar protostars and nebulaes that are perpendicular to the dusty disk


Silicon prism bends refracts gamma rays
New findings of gamma ray refraction proves Einstein's relativity is wrong. The electromagnetic force holds everything together in the universe. This new discovery destroys previous beliefs that gamma rays do not refract light, and can never be used to focus light. New gamma ray studies can now be used to study the extremely high electric field of the atomic nucleus (no quantum gravity exists). Phony dark matter filament components that cause presumed gravitational lenses, are actually light bending of silicene and graphene fractal 3D superstructures connecting galaxies together.
EM Battery Universe
Silicon and Carbon nanocomposite granule with interconnected filament channels carry electric currents that mimic the dark matter model of the fractal cosmic web's filamentary structure of interconnected galaxy clusters in the universe

2 comments:

  1. Hi,

    You seem to graph the broader roles of electromagnetism in the universe as suggested by EU theory, but you don't seem to buy into the model as you still discuss black holes, and stars as being thermonuclear. Can you explain that?

    Also, there's a lot of animations and other stuff on your pages, I'd recommend cleaning some of that up as it makes scrolling and loading rather sluggish. Doesn't mean you need to delete, just don't have so much per page. Font is also often hard to read because of contrast with the background.

    Other than that it's a very interesting blog. Great work.

    ReplyDelete
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