"Artist’s impression of a binary neutron star merger, emitting gravitational waves and electromagnetic radiation. Detection and analysis of these signals can provide profound insights into the underlying processes. Credit: MPI-IS / A. Posada" (ScitechDaily, New AI Algorithm Analyzes Neutron Star Collisions 3,600x Faster Than Traditional Methods)
The new algorithms are making it possible to observe black holes and neutron stars with new outstanding accuracy. When we think about the neutron star's collisions and black hole eruptions, those things can give us lots of information about the mysteries that lurk inside those things. Maybe someday, in the future, we can predict things like FRBs, XRBs, and GRBs (Radio, X-ray, and Gamma-ray Bursts).
And even if we cannot trap those energy beams, we can make predictions when those things happen. That kind of data can make things like quantum computers more trustable. Theoretically, the system can trap energy from the FRB very easily. The only thing, that is needed is the antenna and capacitor that the FRB (Fast Radio Burst) hits. The problem is how to predict that event.
The black hole's magnetic field can form in plasma interaction there plasma rotates the relativistic jet. The jet acts as a stator and the other plasma acts as a rotor.
Or the collapsing star can leave a magnetic field behind it. That means the magnetic field remains. As the locked field that orbits the black hole.
"3D rendering of a rapidly spinning black hole’s accretion disk and a resulting black hole-powered jet. Credit: Ore Gottlieb et al. (2024)" (ScitechDaily, Magnetic Origins: New Study Solves Longstanding Black Hole Mystery)
When we think about the black hole's magnetic fields that thing can form if, the ultra-magnetic star collapses or detonates as a supernova. The black hole forms when a star collapses, and in that process. The star's remnants go through every stage from white dwarfs to neutron and quark stars while it turns into singularity.
Every one of those stages stands less than one second. Maybe the quark star is only the short-living medium to a black hole. That thing causes the effect that the neutron star stage's magnetic field will leave behind the collapsing structure.
That magnetic field is like wave movement. That is locked to orbit the black hole. The black hole's massive eruption forms when an energy beam or material travels through that magnetic field. The eruption forms when a black hole eats something big. Like neutron stars or stars. The moment when eruption starts is when the material and energy impulse ends. That means black hole eruptions happen after the material or energy impulses. When energy injection ends. That causes a situation where that magnetic field sends its extra energy to space.
This kind of event can prove Hawking radiation. There is a possibility that the quantum field that forms the string-shaped structure can fall into the black hole. That kind of string can turn into a roll that can close the gravity field away from it. That kind of string can theoretically transport energy out from the black hole. This kind of tunnel or wormhole can form in the spin axle of the black hole. So, in that model the relativistic jet forms around that tunnel.
If the eruption happens without that material impulse. Or some other material or energy source. That tells that the black hole will be in a cosmic void. That cosmic void can rip the energy out of a black hole and make it vaporize. That event can tell about things like still hypothetical Hawking radiation. It's possible.
That the black hole turns material into its mirror and the annihilation that happens just at the event horizon can make that radiation possible. In some other models, the hypothetical Hawking radiation can form in the cases that a photon or some wave movement travels through the event horizon. When that happens the high energy field that orbits the black hole in that point transfers energy into that particle. But it is also possible that there are small whirls in the black hole's gravity field that can allow some particles or wave movement to escape from it.
https://scitechdaily.com/magnetic-origins-new-study-solves-longstanding-black-hole-mystery/
https://scitechdaily.com/new-ai-algorithm-analyzes-neutron-star-collisions-3600x-faster-than-traditional-methods/
https://en.wikipedia.org/wiki/Hawking_radiation
https://en.wikipedia.org/wiki/Quark_star
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