The new algorithm can calculate qubits very accurately.
But this algorithm and formulas can used in many other tools, like quantum chemistry and quantum engineering.
A new algorithm can calculate qubits very accurately. Accurately calculated qubits are necessary tools for quantum computing. In that kind of calculation, the focus is on how to predict the levels or states of superposition of the qubit. When we think of superpositions, they are like potholes or dents on the qubit, which can be a photon or an electron. Or those potholes and dents are weaker points on the quantum field. There can also be stronger areas in those quantum fields. Those stronger areas are like mountains or hills.
But the same algorithm can make a revolution, at least in quantum chemistry. That new algorithm can be used to calculate the depth of those potholes or the height of those hills. And in quantum chemistry, those potholes and hills are places where things like electrons connect each other. That means the same thing that makes qubits can be used to connect subatomic particles.
The term quantum chemistry means that molecular interactions are handled using quantum theories. And this new algorithm can make it possible to calculate Van Der Waals bonds. But we could also use the term "quantum chemistry" for things where researchers interconnect subatomic particles together. That allows you to create electron layers or some other things.
"Scientists have developed the ACE algorithm to study qubit interactions and changes in their quantum state, simplifying quantum dynamics computation and paving the way for advancements in quantum computing and telephony". (ScitechDaily.com/Deciphering Quantum Complexity: A Pioneering Algorithm for Accurate Qubit Calculation)
Wikipedia determines quantum chemistry like this:
"Quantum chemistry, also called molecular quantum mechanics, is a branch of physical chemistry focused on the application of quantum mechanics to chemical systems, particularly towards the quantum-mechanical calculation of electronic contributions to the physical and chemical properties of molecules, materials, and solutions at the atomic level". (or atomic and subatomic levels) (Wipedia.com/Quantum Chemistry).
Artificial demon particle.
Quantum chemistry is a new tool for quantum systems. The idea is that. The stronger and weaker points in the quantum fields can used to connect electrons or protons in a quasiparticle called the demon particle. The demon particle is the electron layer or electron ball that covers the layer.
Using magnetic fields, it is possible to create some kind of electron particle layer, or electron ball, between graphene layers or graphene-titanium layers. The problem is this: That kind of system requires extremely strong magnetic fields. In the last one, the electrons hover between graphene and titanium (or some other metal) layers.
But if electrons can anchor themselves to each other by using those quantum hills and potholes, that decreases the need to use high-power magnets. If we want to make energy waves that are strong enough to levitate large structures, researchers need a thick electron layer.
https://scitechdaily.com/deciphering-quantum-complexity-a-pioneering-algorithm-for-accurate-qubit-calculation/
https://scitechdaily.com/quantum-superchemistry-breakthrough-a-pioneering-discovery-by-university-of-chicago-scientists/
https://www.space.com/bizarre-demon-particle-found-inside-superconductor-could-help-unlock-a-holy-grail-of-physics
https://miraclesofthequantumworld.blogspot.com/2023/08/the-demon-particle-is-found-inside.html
https://en.wikipedia.org/wiki/Quantum_chemistry
https://technologyandfuture4.wordpress.com/2023/08/23/the-new-algorithm-can-calculate-qubits-very-accurately/
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