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Can the atom be the most effective qubit?

"Researchers have created a quantum vortex in superfluid helium to study black hole dynamics, revealing new insights into quantum fields and curved spacetimes through innovative cryogenic experiments. Credit: SciTechDaily.com" (ScitechDaily, Quantum Tornado Unlocks Mysteries of Black Holes)

Quantum tornadoes can also act as qubits if their shape is slight enough. Or they can form a quantum point in the middle of it. And that point can act like a photon pair in qubits. In that model, two quantum whirls are horizontally against each other. And data travels through those quantum points. 

In some visions the system can use quantum tornadoes or plasma rings to create slight electromagnetic fields. The system can put those electromagnetic fields into superposition and entanglement. Those whirls or ion rings are similar to those used in fusion tests but at a lower energy level. That thing allows the system to create almost stable qubits. 

In the most exotic and powerful version, the quantum computer can make two ion- or quantum rings for making static qubits. The energy level at transmitting qubit is at an extremely high level. And the receiving part of those qubits is at the lowest possible energy level. Those rings oscillate with the same frequency, which means superposition transports information between those rings. 

The qubit and quantum computer searches its form. The quantum computer is not ready yet. The first-generation quantum computers used superpositioned and entangled photons to make the qubits. The problem is how to control that photon pair. 

So there are many other versions of the qubit and its form. In some visions, the system uses electrons, ions, or neutral atoms to make the quantum entanglement. In some less-exotic versions, quantum computers use radio waves or optical wave movement. In those systems, individual wavelength or frequency is one state in the qubit. 

 Or, if we think sharper computers and networks are ever ready. Or other ways we can say that computer technology is a long way to the omega point. The new models for qubits are interesting. One suggestion for qubits is to use simple atoms. The system can use atoms whose quantum fields are fully symmetrical. 



Then the system can make a superposition between those magnetic-, or quantum fields. The atom- or molecule-based qubits are easier to control than photons, or some other subatomic particles. In some models, the system uses water molecules as antennas that can transport information in the system. In this model, the system locks the water molecule in a certain position. 

Then it will transport data through hydrogen atoms to oxygen, which acts as an antenna. The version uses single atoms that the system can put against each other. The other atom is in the minimum energy level and the other is in normal temperature. Then the system can make the superposition and entanglement between those energy fields. The big difference between those energy fields helps to control data flow. 

The system can be solid. In that model, data travels in quantum crystals. One of the most promising things is time crystals their information can travel between those atom lines. And that allows the system to transport data between time crystals. But in a simpler version, the system can use wire-connected atom lines or quantum diamonds. 

The system can aim data between those diamonds very accurately. If there are different atoms connected to each nanodiamond that allows the system a better way to separate wavelengths or frequencies that those crystals send. 

The system can also use radio waves. In that model, each frequency is one state for the qubit. And that thing is one of the most interesting ways to make quantum computers. Those coherent radio waves travel in the nanotubes that protect against outside energy effects. This is one version of the quantum computer. 


https://www.quantamagazine.org/the-best-qubits-for-quantum-computing-might-just-be-atoms-20240325/


https://scitechdaily.com/quantum-tornado-unlocks-mysteries-of-black-holes/


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