"Astronomers studying the quasar H1821+643 found it less impactful on its environment than expected, challenging typical black hole behavior. Credit: SciTechDaily.com" (ScitechDaily, Quasar Conundrum: Brilliant Supermassive Black Hole Defies Expectations)
"In mathematics and physics, a soliton is a nonlinear, self-reinforcing, localized wave packet that is strongly stable, in that it preserves its shape while propagating freely, at constant velocity, and recovers it even after collisions with other such localized wave packets" (Wikipedia, soliton)
In some models, the black hole is the thing. Where the energy field moves and the event horizon is standing soliton. And then that thing forms the solution. In normal models, the wave package moves. And the energy field where it moves stands. The moving energy field can also move soliton as a standing wave. In that interaction wave field, or energy field moves against a standing soliton.
The gravitational nature is a mystery. The researchers research supermassive black holes because they might answer the question about black holes' nature or they might give an answer about the existence of graviton. The graviton can exist. Or it can be some kind of virtual particle. There is the possibility that somewhere in some energy field, holes that are like electron holes. It's possible.
"An animation of the overtaking of two solitary waves according to the Benjamin–Bona–Mahony equation – or BBM equation, a model equation for (among others) long surface gravity waves. The wave heights of the solitary waves are 1.2 and 0.6, respectively, and their velocities are 1.4 and 1.2."(Wikipedia, Soliton)
"The upper graph is for a frame of reference moving with the average velocity of the solitary waves". (Wikipedia, Soliton)
"The lower graph (with a different vertical scale and in a stationary frame of reference) shows the oscillatory tail produced by the interaction. Thus, the solitary wave solutions of the BBM equation are not solitons." (Wikipedia, Soliton)
This kind of tiny pothole can form the whirl around it. And if that energy field around that hole whirls fast enough. It denies this power field interaction with this pothole. In this model, the pothole forms in the Higgs field that drives particles to it. And then we can say that pothole is the key to the gravity. We know that electrons can orbit the pothole in an electromagnetic field. And the gravitational field is like all other power fields. There should be similar holes that form in an electromagnetic field.
So if we think that gravity forms in a similar pothole as an electron forms when it jumps out from the orbiter. The Einstein-Rose bridge or wormholes are the holes or tornadoes through the Higgs field. The other version of the wormhole or channel through space and time is some kind of gravitational maser emission. Coherent gravitational waves or coherent waves in the Higgs field can explain the gravitational interaction.
In some other models, the soliton is in a gravitational field. Or Higgs field can explain the gravity center. When a wave package travels in an energy field it harvests energy from that field. The thing that makes the soliton-wave-packages energy level rise is the energy valley behind that thing. When the energy valley behind the soliton wave turns deeper the wave package pulls energy into it.
Normal models introduce the model. There the soliton or wave package moves and the field stands. But in the opposite model energy field can move and form a standing wave. There is the possibility that the black hole is like the soliton, where the energy field moves forming a standing wave and the opposite side is the energy valley. This thing can explain why gravity interacts with all other particles.
https://scitechdaily.com/quasar-conundrum-brilliant-supermassive-black-hole-defies-expectations/
https://en.wikipedia.org/wiki/Electron_hole
https://en.wikipedia.org/wiki/Exciton
https://en.wikipedia.org/wiki/Graviton
https://en.wikipedia.org/wiki/Higgs_field_(classical)
https://en.wikipedia.org/wiki/Quasiparticle
https://en.wikipedia.org/wiki/Soliton
Comments
Post a Comment