Relativistic jet: galactic light saber.

  Relativistic jet: galactic light saber. 

"Princeton researchers have found that the M87* black hole expels energy outward, contributing to the formation of massive jets. This discovery, rooted in Einstein’s theory of relativity, challenges traditional views of black holes and could be further tested with advanced telescopes. The study opens new avenues in understanding black hole dynamics, though it stops short of definitively explaining the source of the jets’ power. Credit: SciTechDaily.com" (ScitechDaily.com/Einstein’s Twist: Princeton Astrophysicists Unravel the Mystery of Black Hole Jets and Galactic “Lightsabers”)

"An animation showing how the magnetic field crossing the black hole’s event horizon twists up as as the black hole rotates more quickly. A faster-rotating black hole `winds up’ the magnetic field more quickly, causing the black hole to lose more energy to its surroundings. A team of Princeton astrophysicists observed the wind-up of magnetic field lines in images from the Event Horizon Telescope of the linear polarization from black holes. Credit: Video by George Wong, Institute for Advanced Stud" (ScitechDaily.com/Einstein’s Twist: Princeton Astrophysicists Unravel the Mystery of Black Hole Jets and Galactic “Lightsabers")

It's possible that when a black hole rotates faster and faster. That electromagnetic whirl takes a gravitational field with it. The gravitational field is very much like other fields. And when the electromagnetic field rotates fast enough, the superstrings that form a magnetic field can touch the gravitational superstrings. Or they can collect so many gravitational superstrings that they can take the gravitational field with it. 

The fast-rotating energy fields are like heat pumps. And they transport energy out from black holes. Same way, when a relativistic jet travels through the electromagnetic and gravitational field it transports energy out from the magnetic field and possibly also from the gravitational field. While that jet travels through those fields they pump energy in it. Like laser pumps energy in laser element. 

 Whenever a black hole sends gravitational waves it loses part of its mass. When a black hole's mass gets lower, its size will turn smaller. During that prosess there is forming a small vacuum that pulls energy out from it. 

The relativistic jet of black holes is the most powerful phenomenon in the universe. The power of those jets is enormous. And the Princeton astronomers created the model, of how a black hole's magnetic field, along with gravitation makes those galactic lightsabers possible. The idea is that the particles around a black hole travel to its poles through the transition disk. 

When those particles hit together at the equator. That forms radiation that travels away from the event horizon. The speed of particles that travel and impact with opposite coming particles and particles, that travel in material disk around the black hole is very high. And they involve lots of kinetic energy in those impacts. That means the particles that come from three sides hit together. 

And then, that radiation gives energy to particles that travel to black hole poles. When those particles hit together at the black hole's poles, that thing raises their energy to a very high level. The relativistic jet formation happens near the event horizon. There it collects radiation and particles that fall from space around the black hole. 

It's possible. Those jets can turn particles in the middle of them into so-called parasite black holes. That means there are one or more black holes in the relativistic jets. Those small black holes that can form chains get their energy from the main black hole and its jets. in some visions, there is a gravitational tornado in the black hole's poles. That tornado interacts with its environment like a sonic whirl. 

This gravitational tornado doesn't let another gravitational field get in it. The reason for that is its formation consists of intertwined gravitational superstrings. Those superstrings collect gravitational radiation in their structure. Because that structure has a higher energy level than elsewhere in a black hole, it reflects gravitational radiation. This gravitational tornado denies that a gravitational field cannot fall in that tornado. 

The tornado can tie a gravitational field to its shell. The electromagnetic low pressure in the tornado keeps it in form. And it transfers the wave movement out from the black hole through the poles. That energy that travels to the black hole's poles is the negative energy. That thing transports energy into the polar directions. That maintains the suction that keeps the event horizon in its form. The gravitational tornado acts like a thermal pump that aims energy to the black hole's poles. The main question is does that energy travel straight out from the poles? Or does it travel to the black hole's equator where it impacts with energy that comes from another pole? 

And that thing can create a small non-gravitational area in the black hole's poles. So in this model. Wornholes or Einstein-Rose bridges are inside those jets. Those jets can also form electromagnetic wormholes themselves. The high-power radiation pumps energy to particles that travel in the jets. And that thing can raise those particle's energy levels to a very high level. That makes it possible for those particles to turn into black holes. 

https://scitechdaily.com/einsteins-twist-princeton-astrophysicists-unravel-the-mystery-of-black-hole-jets-and-galactic-lightsabers/