Particles from nowhere and XRBs ( X-ray Bursts) cause headaches for researchers.

Particles from nowhere and XRBs ( X-ray Bursts) cause headaches for researchers. 

Dark energy and tachyon hypothesis: is a hypothetical tachyon the source of that unique high-energy particle? 

Telescope arrays noticed particles that seemed to be coming from nowhere. Or, the mystery particle's energy levels are much higher than other particles. Some of those high-energy particles are things, that seem not to come from this universe. 

Some researchers explained those high-energy particles as the shockwaves that hypothetical tachyon particles create. When the tachyon's speed slows to the speed of light it turns photon. Then to neutrino or Higgs Boson. And after that, it turns to another particle. 

Another version of this mythical particle is that it's the lowest energy particle in the fourth dimension. When it starts to slow its speed it faces a quantum field that denies particles cross the speed of light. And then, the same quantum field pushes tachyon back to it's tachyonic universe. In that model the shockwave or double whirl. 

That tachyon interacts with quantum fields to form particle-antiparticle pairs. Then those particle-pairs annihilate forming flashes of light. The reason why we cannot see those particles is simple. They exist so a short time. In this model photons are the product of those extremely small and high-energy particle impacts. But that requires the confirmation of the existence of tachyons. And today tachyon is a hypothetical particle. In some models, tachyons are the source of dark energy. 

When a super-fast particle travels in a quantum field it forms a channel. And when that channel collapses it forms the standing wave in it. The reflecting quantum fields can form the dark energy, that pushes particles from each other. And if the energy level of that particle is far higher than its environment, energy flows away from that particle and interacts with its environment. 

So what could be the place where tachyons form? Multiverse could answer that question. If there are other universes, it's possible that other universes are smaller and they involve less mass than our universe. But in those other universes natural interactions are the same. In lower mass universe particles and light travel from them faster. And if there is a lower-mass universe. It's possible. It sends photons at a higher speed than the speed of light in our universe. But that is only a hypothesis. 

"Caltech Professor Paul Bellan’s two-decade research on plasma jets reveals unexpected behaviors in ‘cold’ plasmas. Initially theorizing a collision-avoidance mechanism for electron acceleration, Bellan later disproved this through simulations, discovering that some electrons, by rarely losing energy in near-ion passes, continuously accelerate and produce X-rays. This finding, significant for understanding solar flares and fusion experiments, challenges conventional plasma theories. Credit: SciTechDaily.com" (ScitechDaily.com/Redefining Physics: Plasma Jets With Unexpected X-Ray Emissions)

Very high-energy, almost unique particles are interesting because they can also explain things. Like mysterious faster-than-light results in some experiments. There is the possibility that some of those particles are formed inside virtual particles or quantum whirls. 

Virtual particles are quantum whirls that can cause unexpectedly high energy levels in particles that are released in those whirls. In this text, quantum whirl means twhirling electromagnetic-, or some other natural interaction that forms a whirling structure. And that whirling structure in the field loads energy to that particle. This thing can cause a situation where the particle's energy level is higher than predicted. 

When we look at the Higgs Boson, we see that this particle divides very fast. The dividing products are W and Z bosons and some other short-living elementary particles. When Higgs Boson divides it sends a very fast high-energy pulse. That pulse forms a vacuum around Higgs Boson and that short living structure forms a whirl. That quantum whirl condensates to W and Z bosons and other elementary particles. 

The GUT (Grand Unified Theory) determines the particles as the condensation in the electromagnetic (or quantum field). The energy level in this condensation determines which particle is. That means adjusting the energy level can make it possible to turn a particle into another. 

In some models, the ghost- particles form when the particle travels inside GRB, XRB, or FRB. (Fast Gamma, X-ray, and radio bursts). When a particle travels in that beam, that loads energy into it. And that thing can form particles that should not exist. If a particle travels in the black hole relativistic jet, it can get an energy level. That is far higher than any particle accelerator can create on Earth. 

The key question is: does the plasma jet that impacts plasma in Van Allen belts cause XRB? Or, does the XRB cause plasma jet? Radiation from the sun increases energy in the Van Allen belt's plasma. And that plasma can send radio waves inside the Earth. In Earth's core, the radio waves increase radioactive decay. And that increases magma's temperature. Also, those radio waves form whirls in magnetic stones. That thing can accelerate volcanic activity. Also, when FRB hits Earth it raises the energy level in Earth's core. 

The plasma jets and their connection with XRB (X-ray Burst) are interesting. When a particle travels through the electromagnetic field, that field loads energy into it if the field has a higher energy level. If the field's energy level is lower than the particle, energy travels out from the particle. 

Van Allen belt and volcanism. 

When high-energy plasma jumps out from stars, that thing can form X-rays. Or otherwise. If the XRB hits to sun it raises the sun's energy level at that point. And that thing can cause the high energy plasma impulse. 

High-energy plasma is one of the most interesting things in the sun's activity. When that plasma hits Earth's magnetic field it forms the Van Allen belt around Earth. Those plasma rings are dangerous for all satellites. Also if XRB or plasma impulse hits the Van Allen belt, that causes energy rise in that plasma. That energy travels in the Earth's core. There it increases particle divide. This thing causes energy rise in magma, and this can be the connection with Sun activity and volcanism. 

https://scitechdaily.com/mystery-in-the-cosmos-telescope-array-detects-ultra-high-energy-extraterrestrial-particle-with-no-obvious-source/

https://scitechdaily.com/redefining-physics-plasma-jets-with-unexpected-x-ray-emissions/

https://en.wikipedia.org/wiki/Tachyon