The new materials and AI-based systems bring new winds to quantum computing.

Above: A Quantum router or hub can look like this. "A novel hybrid quantum computing approach simplifies algorithm execution by integrating natural interactions, reducing the need for extensive quantum gates and improving resistance to errors and noise. Credit: SciTechDaily.com" (ScitechDaily, Scientists Crack Quantum Computing Complexity With Revolutionary Hybrid Design)

Researchers created many new things that can boost quantum computing. New materials that absorb the outside interference from quantum channels allow the creation of a new error-free environment where the outside effects are minimized. The nano-crystals can be used to make electromagnetic shadows. That protects information in the quantum entanglement. The thing that destroys the quantum entanglement is the temperature. 

The IR radiation makes non-controlled oscillations in the particle pairs. Normally quantum computers create the quantum entanglement between photons. And the image of the photon makes it possible to control those particles better. The ability to see particles makes it possible to control particles. The Quantum computer can have two versions of the superpositioned and entangled particle pairs. The system can have outside superposition. 

"Using a novel double-transmon coupler, researchers have attained gate fidelities up to 99.98%, paving the way for more reliable and scalable quantum computing. Credit: SciTechDaily.com" (ScitechDaily, Quantum Computing Breakthrough Achieves 99.98% Gate Fidelity)

"Evolution paths of the single control qubit on the Bloch sphere in the hybrid approach to Grover’s algorithm. Credit: Sinitsyn, N. and Yan, B., Topologically protected Grover’s oracle for the partition problem. Physical Review A 108, 022412 (2023)" (ScitechDaily, Scientists Crack Quantum Computing Complexity With Revolutionary Hybrid Design)

"A molten salt method has unlocked new materials for quantum dots, expanding their technological and scientific potential. (Artist’s concept.) Credit: SciTechDaily.com" (ScitechDaily, Quantum Breakthrough Allows Researchers To Create “Previously Unimaginable Nanocrystals”)

There the the system puts simply two particles in the superposition. Another, more advanced way to make that thing is to use the internal superpositions of the photons. The internal superposition means. That information is shared into layers of the photons. The thing is that the control of the system requires full knowledge of the system. 

The X-ray systems that can see electrons and other things around atoms are tools. That can be used to make quantum entanglements between electrons in an atom's shells. Things like gamma-ray lasers that can observe the position of the quarks can make it possible to create superpositions and entanglements between quarks in protons and neutrons. 

It's possible that in the world of tomorrow, the quantum computer can use the internal superpositions of protons and neutrons to make the internal superpositions. In superposition, the particle transfers its oscillations to other particles. And the thing that makes the information travel "faster than light" is this.  The quantum channel that protects information allows it to travel faster than light travels in an environment outside the quantum channel. But in that case, the information doesn't travel faster than light travels in a vacuum. 

Those new breakthroughs make it possible to create new and scalable quantum computers. Researchers have made the quantum system that gate fidelity is 99,98%. And that is the new and very accurate way to make the system. That thing increases the power of the quantum system. The new systems can also exchange information between quantum and binary states, without the need to stop the system. 

The AI-controlled morphing networks make it possible for the interface between quantum and binary states not to stop when the quantum system transmits and exchanges information over the border of quantum and binary states. The system can have one binary computer pair for each quantum state. 

Or the system can select the receiving computer from the morphing neural network. The network control algorithm tells the router. Which of the computers in the segment is free, Then the router can route the data to the free computer. If the qubit has 125 states there can be 125 binary processor pairs (250 processors) that operate their own state. 

The morphing neural networks can also emulate quantum computers. Each of the binary computers (microprocessor) in the networks. Can work as one state of the qubit. The morphing means that the system can share missions with different computers. Or it can connect all computers to work for the one focus. 

https://scitechdaily.com/quantum-breakthrough-allows-researchers-to-create-previously-unimaginable-nanocrystals/

https://scitechdaily.com/quantum-computing-breakthrough-achieves-99-98-gate-fidelity/

https://scitechdaily.com/scientists-crack-quantum-computing-complexity-with-revolutionary-hybrid-design/

https://en.wikipedia.org/wiki/Quantum_superposition