All balls are acting the same way. Particles and ball-shaped energy fields transmit energy in the ball. The thing called vacuum bomb base is the model where explosive forms a vacuum in the detonation of that weapon. Then the gas falls into the vacuum and reflects. That thing causes the destructive pressure wave. And we can think that quantum fields acting a similar way.
When electromagnetic radiation hits particles. The particle's energy level rises and it sends extra energy away from it. Or at first electromagnetic wave movement travels in the center of the ball. The ball could be an electron, quark, or gluon. But it can be the entirety like Boötes void black hole or universe.
In this model, the ball-shaped elementary particles are the thing that forms dark energy. The idea is this: when energy hits a particle or ball-shaped electromagnetic field it travels in that ball. Then energy or wave movement reflects from the center of those balls. The thing is that energy flow to the center of the ball continues until it reaches a higher energy level than wave movement or radiation that travels in the ball.
So things like Boötes void form when some kind of shockwave cleans some area from particles. That means energy travels in the Boötes void and then, sooner or later, it faces the center point of that great emptiness. There that energy jumps back to the shell of Boötes void. That thing can form jumping electromagnetic waves. And those waves can turn the Boötes void-style entireties larger and larger. There is a possibility that the Universe acts like all other balls.
Stars send radiation to the edge of the universe. And then some part of that energy reflects into the middle of the universe. Also, gravitational waves could jump inside the ball-shaped structure if there is some kind of vacuum. In that model, the ball-shaped gravitational field sends gravitational waves inside it. Then those reflecting waves can work oppositely to regular gravitational waves.
Particles are not forming energy. They just transform energy into another form. That means particles change the wavelength of some fundamental interaction.
Theoretically, a hypothetical graviton particle is so small, that it sends reflection almost immediately when radiation hits it. The energy reflection that graviton sends could have so high frequency and short wavelength that it cannot detect.
But then we can go back to the world of particles. The question in the dark energy is what particle sends that energy. The gluons or quarks can be the source of that dark energy. If radiation stresses those extremely small particles. They will send reflection impulses almost immediately. There is no time or space in those extremely small particles that particles can load very strong energy levels in them.
Reflection happens almost immediately and that means the energy level of reflection is not very much higher than the environment. And that means the particle sends radiation very often and the frequency and wavelength of that radiation are very short.
That means hypothetical graviton particles can be the thing, that creates dark energy. The idea is that energy travels in the middle of the theoretical graviton, which is much smaller than gluon. Then that particle sends radiation with very short wavelengths and high frequency. So that's why this wavelength is not very easy to detect.
https://en.wikipedia.org/wiki/Bo%C3%B6tes_Void
Image: ScitechDaily.com
Comments
Post a Comment