"Researchers achieved 94% fidelity in quantum teleportation by enhancing nonlinear optics with a nanophotonic platform, solving major noise and efficiency issues. Credit: SciTechDaily.com" (ScitechDaily, From Sci-Fi to Reality: Single-Photon Teleportation Breakthrough)
If the image above introduces the two proton superposition that superposition is interesting. In the simplest model, the system can simply put the quantum field that surrounds those quarks into the superposition and entanglement. The three main particles that form a proton are the two up, and one down quarks. So the superposition starts between those down quarks and then it spreads into the the up quarks.
The down quark's energy level is naturally higher than the up quarks. That means those things can make the internal superposition in the proton. Because, energy travels out from the down quark to lower energy up quarks that are in the "Y"-shaped positions that deny the standing waveform in the proton.
That means the nose-particle turns into superposition and then it transfers its oscillation into two other quarks. The problem is how to deny the standing wave formation in the proton. If that happens that blows those quarks away. There is also the possibility of putting two protons precisely in opposite positions to each other. Then the system can put those quarks into superposition and entanglement at the same time.
When the quantum computer loads data to the proton it simply makes waves into that particle's quantum field. Then laser transfers those waves into another proton. The idea is the same as in photon superposition and entanglement. When we talk about the superposition or Einstein's spooky action in the distance we don't mean that the particle itself is in two places at the same time. The superposition means that the system puts two particles oscillating in the frequency.
That thing makes quantum networks possible. If somebody tries to steal information from the quantum entanglement that person must just cut the quantum string. Or if information travels in the particles that mimic neurotransmitters the intruder must touch the particle. And then it destroys information.
So the system multiplies the dominating or transmitter particle's oscillation into another lower energy particle. The system shoots the laser ray over the transmitter particle. Then the transmitter particle sends a so-called quantum string to the receiving particle. That thing multiplies those oscillations to the receiving particle.
Or it transmits the waves that are on its shell to the receiving particle's shell, or quantum field. The quantum teleportation happens through the quantum channel. When a laser ray makes a quantum shadow on the other side of the particle that shadow pulls information into it. The requirement for quantum entanglement existence is that the energy level in the transmitting particle is higher than the receiving particle. The thing that puts limits on quantum teleportation is the quantum channel.
The quantum channel must be tight enough that side-coming energy fields, so-called Hall effects, or Hall fields are removed. The Einstein-Rose Bridge called Wormhole can transport at least probes over extremely long distances. The wormhole is the whirl in the gravity field. The theoretical, but almost confirmed wormhole is one of the ultimate versions of the quantum channels.
In those channels is the quantum low-pressure. That means there are fewer scattering fields and that means the light can travel faster in those channels. The thing that makes teleportation interesting is that the system can transfer information through the walls. The information travels in the electromagnetic, acoustic, or gravitational wormholes faster than outside that channel.
When we think about confirmation of the existence of those wormholes we should look for extremely high energy particles. The idea is that the energy that pushes a particle forward is the thing that locks time in that particle. The wormhole is an extremely tight version of the electromagnetic wormhole. The particle or object travels in that channel with incredible speed, because it rides with an energy wave. That energy wave cannot travel past the object. Ahead of the object is the electromagnetic vacuum.
The idea is similar when the object travels in the water tube. The water pushes that object forward. The thing that can prove the existence of those wormholes is the ultra-high energy ghost particles like neutrinos. If neutrinos travel in the wormhole, they cannot release their energy anywhere.
That means the wormhole acts like a laser. The requirement is that the gravitational whirl's shell is at a higher energy level than the particle that travels in the wormhole. If a particle that travels in the wormhole has a higher energy level than the wormhole's shell that radiation destroys the wormhole.
The idea of the wormhole is the same as the Tipler cylinder. The fast-rotating energy field pumps energy to the particles and probably objects that travel in the wormhole. The question is can the wormhole transport more complicated structures than neutrons and protons or information stored on their shell? If that is true teleportation can be closer than ever before. The teleportation machine can use atoms that it puts into the superposition and entanglement. Then those atoms or information will be conducted into the 3D printer that can print those objects over a long distance.
Teleportation and visions.
In some visions, the futuristic weapons use quantum teleportation to shoot the antimatter particles in the bunkers.
And in the other visions, the quantum channels or superpositioned particles make it possible to make the engine that creates the faster-than-light exhaust gas. The idea is that the system puts two particles, particle, and antiparticle into superposition and entanglement. The quantum shadow or electromagnetic wormhole allows that information can travel faster than light travels outside that shadow.
Then those antiparticles will travel through that quantum shadow. When the antiparticle impacts the particle in the absolute void. It sends a shockwave that travels faster than light in a short moment. The system can also make those impacts in the void that is less dense than the environment. That can make it possible to create exhaust gas that is faster than the speed of light.
https://scitechdaily.com/from-sci-fi-to-reality-single-photon-teleportation-breakthrough/
https://en.wikipedia.org/wiki/Proton
https://en.wikipedia.org/wiki/Quark
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.