"Oxford
researchers created the first distributed quantum computer, solving
scalability challenges by linking small quantum devices via photonic
connections. Credit: SciTechDaily.com" (ScitechDaily, Scientists Just
Linked Quantum Processors in a Historic Step Toward Scalable
Supercomputers)
Researchers linked quantum processors together.
And that is one step forward to scalable quantum computers. The problem
with scalable quantum computers is that the quantum entanglements in
those systems should be identical. And multiplying the quantum
entanglements is quite a difficult but not impossible thing.
Theoretically, we can say that things like oscillating hydrogen atoms
can make it possible to create a quantum neural network.
Maybe
quite soon, researchers can create a molecule where the hydrogen atoms
transport information in the structure. The quantum system can transport
oscillation in the quantum processors. And that is one way to make a
networked and scalable quantum computer. Maybe those frozen molecules
can someday create the quantum neural network. That kind of molecule can
be a new tool in quantum technology.
The hydrogen atoms are the
tools in the new quantum networks. The information travels between
those atom's quantum fields. Or actually, information travels through
this quantum structure as it travels through the winch wheel series.
That
thing causes an idea that maybe black holes can form similar structures
in the universe. The black hole is the most powerful quantum phenomenon
in the universe. Information can travel also in the black hole's
quantum fields similar way as it travels in other quantum networks. And
one interesting thing is that also things like gravity fields are
quantum fields.
.png){kind=tracking}
Above
hydrogen ions can create networks. And also is possible that black
holes can make similar chains. The hydrogen ion acts as quantum dot that
connects other quantum dots into the quantum networks. "Rendering of
the tilting of relativistic Dirac cones in the bulk electronic bands of a
quasi-two-dimensional (2D) magnetic topological semimetal achieved with
insertion of hydrogen that generates tunable low-dissipation chiral
charge currents. Credit: Krusin Lab" (ScitechDaily, Hydrogen Ions Are
Revolutionizing Quantum Tech – Here’s How)
"Illustration
of a quantum simulator with atoms trapped into a square lattice with
lasers. The small spheres at the corners are atoms in their lowest
energy state. The ones inside a blue sphere are exited (higher in
energy) by the first laser, the ones inside yellow spheres are excited
by the second laser (even more higher in energy). Credit: TU
Delft"(Phys.org, A new design for quantum computers)
The black
holes can make the quantum networks as well as all other quantum
particles. In that thing, the quantum network's quantum dots are black
holes.
.png){kind=tracking}
Above: The quantum network can look like this. The outside forces. Like still hypothetical fifth force destroy those networks.
The
black holes will get their "lunch" when they transport energy from the
gases around them. Some parts of energy and the particles, including
photons, are trapped in the point. Called event horizon. There also
photons travel around the black hole. The event horizon is the place
where escaping velocity reaches the speed of light. And if the
phenomenon where the photon is half outside and half inside the event
horizon is possible that thing gives new ideas for the gravitational
radiation models.
It is possible. That the superstring can start
to travel through the photon. And that makes the structure able to
create the system, that forms gravitational radiation or gravitational
waves. Gravitational waves are like cyclotron radiation. There the top
of the wave is quite low. But behind it comes the energy ditch that is
far deeper than the energy wave before it.
In that model, the
particles that close black holes at a certain angle start to rotate in
the event horizon. If energy and particles come to the black hole at a
straight angle. They go straight through the event horizon. If they
impact particles that are at the border to fall behind the event
horizon. Those particles take energy in their quantum fields. And then
send it backward. So that means the gravitational wave source may be in
the particles that travel almost with the speed of light around the
black holes. So, maybe black holes form similar networks. As other
quantum systems can form.
https://phys.org/news/2024-02-quantum.html
https://scitechdaily.com/black-holes-cook-their-own-fuel-in-a-cosmic-feast/
https://scitechdaily.com/scientists-just-linked-quantum-processors-in-a-historic-step-toward-scalable-supercomputers/
https://scitechdaily.com/hydrogen-ions-are-revolutionizing-quantum-tech-heres-how/
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