"This illustration shows NASA’s IXPE spacecraft, at right, observing blazar Markarian 501, at left. A blazar is a black hole surrounded by a disk of gas and dust with a bright jet of high-energy particles pointed toward Earth. The inset illustration shows high-energy particles in the jet (blue). Credit: NASA/Pablo Garcia" (SctechDaily.com/Astrophysicists Solve 40-Year-Old Black Hole Jet Mystery With NASA’s IXPE)
AI makes system possible to follow the changes of the objects in the skies. The systematic observations of the high-energy objects in the universe are uncovering new details in their reactions. The eruption period of white dwarfs, neutron stars, and black holes is quite stable. And that if there is some kind of explosion or nova eruption in white dwarfs that means something impacted those things. Same way if there are differences in the radiation that a black hole sends that tells it eats something.
The new satellite called IXPE observed a black hole called Markarian 501. And that thing helps to solve the 40 years old mystery of gamma- and X-ray radiation. The magnetic field of the black hole takes material from the transition disk to the poles of that supermassive object.
And there those particles are impacting. The speed of those particles is extremely high, and the IXPE satellite observed how those extremely high-energy particles deliver their energy when they travel outside the black hole.
That energy will transfer to the gas and dust and form gamma- and X-rays. This is one of the most interesting things in black hole research.
The black hole's transition disk is one of the most high-energy objects in the universe. There is a possibility that IXPE-type of satellites can also find the wormholes.
That are suspected to travel inside that gamma-ray. In some models, the wormholes are traveling between black holes' poles. And that means the north pole of the black hole will connect to another black hole's south pole.
The idea is that the wormhole is forming around coherent gravitational waves. That thing forms the electromagnetic tunnel across the universe. Forming of the wormhole is limited to the speed of light. But if a wormhole or electromagnetic tornado can be formed. It offers a very interesting way to send information through the universe.
The electromagnetic wormhole can also stop the aging of the particles. The laser- or some other energy radiation will deny that wave motion can travel out from particles. So if the object is inside the electromagnetic wormhole that thing affects virtually like the gravitational base or so-called real wormhole. The particle that travels in a laser ray would use 9 years to travel to Alpha Centauri.
In this text, the distance between Alpha Centauri and Earth is calculated by using 4,5 ly. But outcoming radiation will stop time in the particle. The observer sees that the particle travels at 50% of the speed of light. But outcoming radiation denies that the particle can deliver wave motion. So outside observer sees that the particle uses 18 years for that travel. But the particle will not age at all.
But even if only electromagnetic wormholes are possible those radiation beams can stop time on the particle. The idea is that high-power radiation denies that energy can travel outside the particle. The thing is that. Cosmic inflation causes the energy level in the universe around that electromagnetic beam to turn lower and lower.
So the difference between the particle and its environment grows very high. When that electromagnetic radiation ends, energy starts to travel out from the particle very fast. And that thing destroys the particle immediately. So in that case the electromagnetic wormhole just stops time in particles. But the speed of the particle is limited to the speed of light. The particle must not travel even near the speed of light. The outcoming radiation denies that the wave motion travels out from the particles.
Sources and image.
https://scitechdaily.com/astrophysicists-solve-40-year-old-black-hole-jet-mystery-with-nasas-ixpe/
https://astronomyandtechnology.blogspot.com/
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