Wormhole connection
The gravitational connection between a BH and partner may be detectable if matter is passing through, as the theory predicts.
The disappearance of matter at the event horizon and its emergence through space time around the White Hole has long been theorized. Could gravitational connections actually exist?
credit Physics Stack Exchange
The filaments forged here by a compact neutron star, like two rotating whirlwinds of gravity, wrape together in a double helix gravitational structure. X-ray glow from the filament may be due to matter/energy release as this structure may form a conduit.
The long X-ray jet in neutron star IGR J11014-6103 with distinct corkscrew or helix pattern may be generating filament. Credit NASAs Chandra X-ray
Not all the matter in accretion reaches the BH or burns at inner accretion zone. The destination for this unaccounted for material is to pass to the White Hole. The rotation velocity of BH spiralling gravity within filaments ends up rotating clockwise in one and anticlockwise in the other.
Black Hole rotates about its axis, creating opposite velocities' in resulting filament. Accretion provides the matter in the transfer system.
The Vela neutron star demonstrates the formation of tight swirls, like vortex of gravity, forging filaments from the poles that spiral huge distance.
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The Vela pulsar, a neutron star that was formed when a massive star collapsed. (X-ray: NASA/CXC/Univ of Toronto/M.Durant et al; Optical: DSS/Davide De Martin)
Neutron Star attracts connected WH to form close binary with spiralling double filament from poles to partner.
Sometimes the BH attracts own WH partner and forms a unique binary. They have similar momentum and a gravitational attraction through the time bridge.
The theory suggest if one BH forges this second outflow star, they probably all do. Making them quite common. Creating transfer and outflow growth systems all over the Galaxy.
Cats eye nebula as WH with regular symmetrical outflow - maybe not White Dwarf as star remnant left after loss of outer layers. Image credit: NASA / STScI.
Butterfly-like planetary nebula NGC 6881 is visible here in an image taken by the NASA/ESA Hubble Space Telescope. Antimatter in two blasts in continuous ejection that stretch a light year in the interstellar medium represent a transfer over billions of years. Outflow associated with matter and energy release.
The White Hole in the centre of outflow starts life close to galaxy middle because this is where most large short lived stars are formed. A type II supernova, as the destructive event which generates the partnership, is most often detected in the Bulge, along the Bar and Spiral Arms. The great concentration of such stars suggest why these growth systems often relate to those structures. Spiralling away from the centre will provide time to grow into a larger and larger star forming system. The closer to the galaxy centre the BH finds itself the more matter to transfer, so the larger the cluster can grow. Where each outflow WH will have a gravitational connection or filament which are hard to detect.
Properties of White Holes are; slow rotation as object of expansion, initially low mass small star, semi compact, large magnetic field and often in the centre of outflow from transfer. Classified currently as some White Dwarfs and Wolf-Rayet stars.
Size of system at WH connected to location of matter associated with BH were the strength of accretion account for transfer and resulting growth. Gravitational connection and super fast transfer from BH agitate WH creating large magnetic field associated with the 'dynamo effect'.
White Hole emissions become powerful enough to form stars locally.
Medusa Nebula with WH in the centre (red star) expels sudden and huge quantities of matter feed nearby stars. Image of the European Southern Observatory's (ESO's) Very Large Telescope in northern Chile
Amazing image of Eta Carinae showing two 'tube' like structures connected to equatorial region of possible white hole. Double time bridge conduits may convey inflow matter, at the speed of light and feed the powerful symmetrical outflow. Image: N. Smith / J.A. Morse (U. Colorado) et al. / NASA.
Wolf-Rayet star in the centre of star forming region may have outflow powerful enough to create a ring of proto-stars.
DETACHED DUST SHELL AROUND WOLF-RAYET STAR WR60-6 IN THE YOUNG STELLAR CLUSTER VVV CL036.
White Hole may start star forming in cluster evolution.
NGC 6388. WH centre of star forming region. Notice the characteristic symmetry. Credit; X-ray NASACXCIASF Palermo M. Del Santo et al; Optical NASASTScI
Accretion fails and stars stop forming those moving away are not replaced and the centre empties.