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Researchers got the first evidence of vacuum decay.

 


"Scientists from Newcastle University, as part of an international team, have made a groundbreaking discovery by providing the first experimental evidence of vacuum decay. This achievement, pivotal for understanding the early universe and fundamental physics, was observed in a supercooled gas near absolute zero and has set the stage for further research in quantum field phenomena." (ScitechDaily, Unlocking Quantum Mysteries: Scientists Produce First Experimental Evidence of Vacuum Decay)


Researchers got the first evidence of vacuum decay. 


Vacuum decay is a situation where the vacuum itself decays in two vacuums. There is no confirmation about that thing. But theoretically, it's possible that. 

Electromagnetic impulses can split a vacuum into two pieces. There are no confirmed cases of vacuum decay. But vacuum decay is where the vacuum decays in two pieces, and if the size of those two vacuums rises as big as the original vacuum was. 

That thing can cause an effect that quantum fields around the vacuum fall in it. That thing forms a situation where those quantum fields reflect from the middle of those two vacuums. And that reflection from the falling quantum fields makes a thing, called vacuum energy possible. It's possible that. The electromagnetic radiation that hits the quantum vacuum can split it into two vacuums, and then make them as big as the original vacuum 


Vacuum energy. 


Vacuum cannot form energy. But annihilation between particle-antiparticle-pairs can form it.  When wave movement falls in a quantum vacuum, it impacts in the middle of it with wave movement. That comes from the opposite side. That thing forms the Schwinger effect, where wave-particle duality forms a particle-antiparticle pair that can annihilate immediately. That annihilation forms energy. 

And a vacuum can harvest energy. Vacuum forms particles and virtual particles from impacting wave movement that falls inside it. In that case, the virtual particles, or energy whirl in a vacuum and harvest energy from their environment. That thing is called the Casimir effect. 

The Casimir effect forms virtual particles between two layers that are close to each other. Those virtual particles are like energy bridges. And when outside energy flow affects them, that thing raises their energy level and makes them collect energy from around them.  


If we think pressure or gas vacuum gas always travels to it. If there is a windmill at the edge of the vacuum that gas flow is easy to move to energy. 


There are no absolute vacuums in the universe. All vacuums are so-called false vacuums. That means at least energy or wave movement falls in those vacuums. There that impacting wave movement impacts to each other. Those impacts are from virtual particles. And wave-particle duality forms particle-antiparticle pairs. 

That thing means that particle-antiparticle-pair annihilation creates energy in the vacuum. Also, interaction with virtual particles like skyrmions and other particles can form energy, or they can transfer energy to other particles. 

The quantum vacuum acts like a vacuum bomb. It collects standing waves in the middle of it. And when the power of standing waves rises higher than the environment. That thing turns the direction of wave movement. That means a vacuum can increase the power of energy. 

The quantum vacuum itself can create energy. The process goes like this. The vacuum pulls wave movement in the quantum vacuum. That wave movement stops for a short moment in the bubble. During that moment this standing wave packs energy. And when the energy level rises high enough, that standing wave will start to travel out from the vacuum. 

A vacuum can harvest energy from space around it. When quantum fields fall in the vacuum,  they impact each other. That thing turns the vacuum act like a vacuum bomb. And that thing where quantum fields impact each other can make a vacuum to harvest energy from its environment. 

Sometimes is introduced that vacuum energy, or energy that vacuum decay releases could be the dark energy's source. The fact is that. Vacuum energy forms when electromagnetic fields fall in a vacuum and then reflect from each other. In that process, kinetic energy travels between those EM fields. And that process increases its energy. 

https://scitechdaily.com/unlocking-quantum-mysteries-scientists-produce-first-experimental-evidence-of-vacuum-decay/


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