The Holographic Galaxy - Fractal Electron Vortex Black Holes Holograms Filaments Universe

A STUDENT FOUND SOME MISSING MASS, by detecting the soft x-rays emissions in WHIM filaments, which doesn't mean that the "Missing mass of the Universe" has been found. This remake story doesn't make front page headlines in the world, because even the big-bang theory predicted lots of missing baryonic mass to be in the WHIM, in addition to devising dark matter. The discovery by Pimbblet is fundamentally the same story published in May 2010, when Taotao Fang discovered "The Missing Mass of the Universe.", already described & poorly interpreted, to support the work in big-bang collaboration. The better interpretation of these findings, is that lots of more filaments have not yet been detected, & its very likely that the WHIM pervades & permeates throughout all large-scale structures in the Universe. Gudel observed Plasma flowing from the Orion Nebula in to the adjoining ISM, & then in to superbubble Eridanus. Very likely Plasma Flows through whole Galaxies throughout the Universe. Taotao Fang is the professional authority on the WHIM, & saw right through a large filament connecting the sculptor wall of galaxies, with a blazer & large black hole. The WHIM is basically transparent, having a low density of 6 protons per cubic meter, & high temp ~1 million degrees. Fang said, "the WHIM is difficult to detect, being so diffuse & straightforward to see right through." "Most astronomers search for obscured things, but they are looking through the WHIM on a regular basis," states Fang.  Visible light observation of large length filaments, requires exact line of sight alignments, to see right through a filament, that is far more large then it is wide. Even Pimbblet states that half of the atomic matter mass in the Universe could be in the WHIM. Most of the mass in the Universe was already known to be in filaments.
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Galaxy groups and clusters


 
Galaxy groups & clusters are the largest known gravitationally bound objects to have arisen thus far in the technique of cosmic structure formation.[1] They form the densest part of the huge scale structure of the universe. In models for the gravitational formation of structure with chilled dark matter, the smallest structures collapse first  finally build the largest structures, clusters of galaxies. Clusters are then formed comparatively recently between ten billion years ago & now. Groups & clusters may contain from0 to thousands of galaxies. The clusters themselves are often associated with larger, non-gravitationally bound, groups called superclusters.