Transfer through Space Time.
This transfer may explain Galaxy evolution as a vector of matter expansion from the Galactic Core
Accretion into Black Hole conversion into anti matter.
It is not possible for matter to return once fallen under the event horizon or escape the pull of a BH. The transfer is achieved by the conversion of matter to antimatter at the inner accretion zone by the different metric signatures of ordinary space time (+) and that at a BH (-). Evidence for matter converting to antimatter, from around compact bodies, is associated with clouds of antimatter relating to BH and NS x-ray binaries.
Antimatter may be opposite to matter in every way and that has been theorised to include gravitation (this is not proven). Opposite gravity would repel antimatter away from the BH through the filament connection, to arrive in the centre of the galaxy.
Black Hole Inflow and Transfer.
Matter converts to antimatter at the inner accretion zone, which passes the opposite way around the magnetic field (by reverse polarity). Down equator region and out the poles, straight into the gravitational connection. Repelled by intense gravity through space and time to arrive around the WH at the speed of light.
White Hole and Outflow.
Antimatter arrives at two points at the equator and is repelled by the WH creating outflow. This converts readily to energy and matter (I don't know how matter can be formed from energy) producing an active zone around the WH as antimatter is volital stuff. This is focused into two points that become the Bar of stars. It is not possible for BHs to produce directly the powerful polar jetting associated with galaxy cores, however, that maybe something a WH could power. The fast moving matter around the WH is generated by the transfer not rotation. The WH hardly moves as shown by its massive magnetic field that hardly rotates at all.
Filaments generated by gravity feeding symmeteical micro galaxy that shows mass gains out of the centre as transfer.
Interstellar cloud IC5156 containing the Cocoon Nebula and a dense network of filaments. These are huge, stretching for tens of light years, and show newly-born stars are found in the densest parts of them. One such filament in the constellation of Aquila contains around 100 infant stars. Credit ESA/Herschel/SPIRE/PACS/D This association strongly suggest a connection between filaments and matter transfer.
Large Black Holes near Galaxy Core generate gravitational filaments that feed growth systems as gobular clusters and massive nebula across the galaxy.
Largest filaments swirl round galaxy core (bottom right) forged by BHs close to the massive matter source galaxy centre. Credit: Farhad Yusef-Zadeh et al. (Northwestern), VLA, NRAO
Faint stellar streams relate directly with the spiral galaxy NGC 5907 trace matter transfer filament to the galactic centre.
The rotation curves in spiral galaxies do not correlate to calculated momentum of stars from merger process. Measured velocity matches outward orbit that becomes gradually slower by outward spiralling.
White Hole galaxy Core generates huge magnetic field as the Bulge. A massive ball of stars centres on the central object and has special associations to it. The turmoil created by external gravitational influences of the powerful BH and impact of antimatter generates a massive 'dynamo effect' in the WH. The matter transfer creates the Bulge, also produces the matter for star forming. This forges the close correlation between the size of the Bulge and the number of stars within it.
Milky Way's Central Supermassive White Hole and magnetic field: Artist's conception Credit: Bill Saxton, NRAO/AUI/NSF.
The Bar is straight in the Bulge as stars increase momentum while spiralling away obtained from the magnetic field of WH galaxy core, locked in it's very slow rotation. The Bulge affects the speed of matter as a recognition of the production of force. This is demonstrated by the speed of stars in the galaxy that steadily increase in trajectory from the centre then gradually slow once outside the Bulge. This unifies direction and speed.
As the Galaxy grows so will the WH core producing a correlation in size.
Galaxy associate to satellite dwarf galaxies home grown not captured. They started as star core collapse partners and WH growths to become centre of nebula or cluster or dwarf galaxy. That links cluster characteristics to galaxies as the larger the system the more galaxy-like. Generally, older systems are found further from galaxy centre and more likely to be bigger.
SDSS image of spiral galaxy PGC 4906
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Quasar Galaxy.
The filament Time Bridge connects to the WH in spiral galaxies directly (90 degrees to surface) into the equator and rebounds back out along galactic plain. Powerful transfer in quasars is more 'glancing' and from one side, creating a super fast asymmetric double jet from one pole. This is why the orentation of a quasar relates to the orentation of their filament in the Cosmic Web. Slow rotation of White Hole swirls the two parallel jets into 'knots' and demonstrates how slowly it rotates.
Radio image of the quasar 2300-189 showing radio jets feeding faint radio lobes. The bright (red) central object is the quasar, some 400 Mpc away.
Incoming matter in the double filament produces asymmetric jet blasting out of the quasar forming long 'knotted' structure as the central object slowly rotates.
Image of quasar (QSO 1549+19) taken with Caltech’s Cosmic Web Imager, showing surrounding gas (in blue) and direction of filamentary gas inflow.
The quasars align with their time bridges strongly suggesting a connection of the filament to the central SMWH as that alignment is dominated by that object.
This artist’s impression shows schematically the mysterious alignments between the spin axes of quasars and the large-scale structures that they inhabit that observations with ESO’s Very Large Telescope have revealed. These alignments are over billions of light-years and are the largest known in the Universe. (Credit: ESO/M. Kornmesser)
Galaxies align with their time bridges like the galactic plain aligns with the central objects equator as all three are connected.
Look deep into the passed through all cosmic time to the early universe and follow galactic filaments from the 'now' back through billions of years of space time to the Big Bang.
Filaments in the Cosmic Web of wormholes connect galaxies to the early universe and bridge vast distance in space and time in four dimensions. What arrives in the galaxy centre is not 13.7 billion years old, but brand new from the Big Bang itself.
Credit: V.Springel, Max-Planck Institut für Astrophysik, Garching bei München
The Sun has a spiralling orbit not circular demonstrates an origin in the galaxy centre and outward drift. The mass of the galaxy has passed through space and time. As have you.
