"New research investigates the electron-on-solid-neon qubit, revealing that small bumps on solid neon surfaces create stable quantum states, enabling precise manipulation. This research, supported by multiple foundations, emphasizes the importance of optimizing qubit fabrication, moving us closer to practical quantum computing solutions." (ScitechDaily, Quantum Riddle Solved? How Solid Neon Qubits Could Change Computing Forever)
Researchers created a superposition in solid neon. And those neon ions, where the system creates superposition in their surfaces. Making it possible to manipulate those atoms. The atom-based qubit has one problem. Orbiting electrons cause turbulence in their quantum fields. The thing that can solve the problem is to use the quantum fields for the superposition.
If the system can position electrons at a certain point, it can make a small hill to the atom's surface. And the system can use that thing for making quantum superposition between the most out surfaces of two atoms. And that thing is the new tool for quantum computing. The atom-based qubits are easier to make than trapping and connecting two photons.
When a system makes the superposition between two atoms it must put them in stable condition. This is why researchers test ions. The electromagnetic system can trap ions in the frame. And then the lasers can put those ions into the superposition and entanglement. Ions are easier to control by using magnetic systems than neutral atoms. The problem is that electromagnetic fields affect ions.
There is another way to trap atoms. That thing is called a time crystal. The laser system can transmit information to those atoms. Then the system puts those atoms opposite each other. After that, the system makes superposition and entanglement between those atoms. And that system can open the path to the next-generation multi-state qubits.
Time crystals created using neon can open new paths for quantum computers. But there is much to do before operators can use quantum laptops. Modern mobile technology allows the user to use quantum computers using mobile applications. The user can use the quantum computer through the internet.
In that system, the computer can share information between qubit states in quite an easy way. The system can use multiple radio frequencies to transmit data. Every single frequency can have a match with an individual qubit state.
https://www.sciencealert.com/time-crystals-could-unlock-a-radical-new-future-for-quantum-computers
https://scitechdaily.com/quantum-riddle-solved-how-solid-neon-qubits-could-change-computing-forever/
https://www.space.com/time-crystals-quantum-computing
https://thequantuminsider.com/2024/02/10/its-about-time-crystals-research-team-uses-time-crystals-as-quantum-computer-controls/
https://en.wikipedia.org/wiki/Time_crystal
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