"Scientists have finally glimpsed what electrons do inside a quantum tunnel, revealing a surprising hidden interaction that rewrites our understanding of a fundamental physical process. (Artist’s concept). Credit: SciTechDaily.com" (ScitechDaily, Century-Old Quantum Mystery Solved: Scientists Finally See Inside the Electron’s “Tunnel”)
One of the most interesting things in the quantum tunnels is that light travels faster in those tunnels than around them. The reason for that is that quantum fields that fall into those quantum tunnels move. And the speed of light is relative to its environment. So if a photon travels in a fast-moving quantum field.
That photon travels faster than it does in a slower traveling field. Quantum fields are the environment. The speed of light is relative to the speed of the environment. Two photons in the same field travel at the same speed. But if another photon travels in a slower field, that photon in faster fields seems faster to a photon that travels in a slower field.
The quantum tunnel is like a tube. All particles can make a quantum tunnel. And all quantum tunnels are wormholes. The Einstein-Rosen bridge is only the ultimate version of those things. Things like electrons and other particles can also make quantum tunnels.
Finally, researchers see what an electron does in its tunnel. And that opens new visions into quantum technology. When an electron travels in the medium, every single medium is a potential wall. And the electron tunnels itself through those walls. When an electron travels through the potential wall, it releases or receives energy.
So when an electron travels in the potential field, it pushes fields away and makes a tunnel through the potential wall. The tunnel that electrons make in the electromagnetic field is quite similar to the tunnel. Things like black holes are created in gravitational and quantum fields. In quantum tunneling, particles travel through the whirl-shaped potential wall. That potential wall is like a quantum tornado.
And the thing that makes this quantum tunnel interesting is that the quantum tunnel can inject energy into that particle. The quantum tunnel sends radiation into itself. The quantum tunnel that spins like a whirl turns a higher energy level than the environment inside it. If that quantum whirl pumps enough energy into that particle, it can turn the particle into a black hole. Whether that happens depends on this: can a particle release its energy?
If a particle is in a long quantum tunnel, energy that falls into the tunnel can push the particle to move deeper and deeper in the tunnel. If that particle cannot push energy out from the tunnel or break the tunnel around it, that means the particle's mass rises. That continues until the particle's energy level rises so high that it can break the whirl around it. Or it can push those fields behind it back. The third version is that the quantum tornado’s energy level decreases so low that particles can break it. That means the particle's energy level turns higher than the quantum tornado around it.
"Spatiotemporal trajectory of an electron tunneling through Coulomb barrier under strong laser field. Credit: POSTECH" (ScitechDaily, Century-Old Quantum Mystery Solved: Scientists Finally See Inside the Electron’s “Tunnel”)
In a quantum internet, information can travel in electrons. Or the quantum tunnel around it can also transmit data. So, the system can send information impulses connecting them to electrons. Or it can send those energy waves in the quantum tunnel's or quantum whirl's walls. The third way is to transmit information in the form of wave movement through the quantum tunnel. The quantum tunnel can also offer the possibility of making quantum entanglement through that tunnel. That tunnel protects information that travels in the superposition.
The idea in quantum mechanics is this. All particles make basically similar interactions with their environment. But the scale of the interactions between particles and the environment is different. That means beta radiation is basically a similar phenomenon to the wind, but the thing that moves in beta radiation is the electron. And in the wind, the thing that moves is the air molecule. But then we can think about the electron and its interaction with the environment.
The big question is what makes the electron move. In beta radiation, the atom’s nucleus starts to send gamma radiation. That radiation makes an electromagnetic shadow in front of the particles. And that shadow pulls electrons into it.
The answer can be in the thing that is similar to the Meissner effect. When the electron spin is high enough, that thing makes the electromagnetic whirl around it. Or the structures on the electron's shell touch the quantum field and start to roll it around the electron. When that channel starts to grow long enough and the energy level on the other side is higher than the other, that makes electrons travel in the channel or tunnel.
That makes it possible to create a quantum internet that is more effective and secure than anything before. The electron can transport information between two points. But the problem is this: if researchers don’t know all parts of its interactions, and an electron touches its tunnel, that destroys information immediately.
https://scitechdaily.com/century-old-quantum-mystery-solved-scientists-finally-see-inside-the-electrons-tunnel/
https://en.wikipedia.org/wiki/Meissner_effect
https://en.wikipedia.org/wiki/Quantum_tunnelling
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