“An artistic representation of nonreciprocal quantum synchronization. RIKEN researchers have proposed a novel approach for the nonreciprocal quantum synchronization of phonons that is resilient against imperfections and noise. Credit: 2026 RIKEN Center for Quantum Computing” (ScitechDaily, Physicists Solve Major Challenge in Quantum Synchronization)
In the quantum switch, the photon can be pulled over the electron like a rubber band. The quantum switch is the system that transforms. The binary information. Into a quantum form. The quantum switch could hover in a fullerene ball. And that ball transports information into that structure. The system. Makes quantum entanglement between those qubits or quantum dots through the carbon nanotubes that connect those fullerene balls.
The problem with the quantum systems is this. The system must transform information from binary form into quantum form. The quantum dot or quantum switch that combines two quantum dots can be. The photon is pulled and anchored around particles. Like electrons. Then the system transports information into the electron. And electrons transfer that information into photons. Those are pulled around each electron like rubber bands. Then the system makes. The quantum entanglement between those photons that are around electrons.
The reason why information can travel faster-than-light in that structure is one of Schrödinger’s cats. Because that system removes one of the fundamental interactions or quantum fields. Or makes some of the quantum fields, like electromagnetic fields, weaker, and muffles entropy. That creates a space where information can travel faster than light travels outside it. So, the system doesn’t break the laws of physics. Light travels faster in that structure than outside it.
The internet will become safer if we can create a so-called quantum network. The quantum network transports information through a network of superpositioned and entangled particles. And this is the reason why quantum synchronization is so important. Quantum synchronization is required. When information travels between multiple quantum dots.
Or. Actually reseachers are synchronizing quantum dots using quantum data transportation. Between two quantum dots. The problem is: How to control complex, multilevel systems with thousands, or even billions of quantum dots. This is the reason. Why the AI will boost the system. The problem with quantum entanglement is that energy, or information, can travel only in one direction. Energy can travel only from a higher energy level. To a lower energy level.
Information travels in quantum entanglement as waves in the energy string that connects those particles. This is the reason. For why the quantum internet requires other types of structures than the regular internet. The structure can be the nanotubes and fullerene ball combinations. The quantum dots hover in the fullerene.
The entanglements are pulled through those nanotubes.
This makes it possible to protect those structures and their information against outside effects. Because information can travel in only one direction. The system must keep the transmitting side of the quantum entanglements at a higher level than the receiving side. And this is. The main problem. With a quantum network. It's that there is a limit. Also. In the minimum energy level. This means that there is always a point. Where the system must adjust it. That means it must lift the energy level in the particle.
So, the system sends the information into the receiving particle. Then. It must rise. Its energy level. Into a higher level. Than the next receiving particle. The problem with this thing is that. When the system. As the particle’s or quantum dot’s energy level rises, it must protect the information that is stored in that particle.
https://scitechdaily.com/physicists-solve-major-challenge-in-quantum-synchronization/
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