The researchers detected new quantum super chemistry at the University of Chicago.

Quantum super chemistry means particles in the same quantum state start collective actions. This is one thing that we must understand when we want to make and control quantum systems. The problem with quantum systems is that the if we want to create quantum systems, and especially quantum computers we must localize that action.

The problem is that when motion starts to escalate across the quantum system. The single particle precise control turns very hard. Otherwise, quantum super chemistry allows research to connect entireties, like graphene nets and other materials. Things like graphene networks are possible to connect on the metal layer on nanotechnical pillars by using that quantum effect.

"The University of Chicago has unveiled groundbreaking evidence for “quantum superchemistry,” where particles in the same quantum state act collectively. The findings could lead to advancements in quantum computing and offer deeper insights into fundamental laws of the universe." (SciTech.com/“Quantum Superchemistry” Breakthrough: A Pioneering Discovery by University of Chicago Scientists)

In quantum molecules, baryons or elementary particles took the atom's place. Those structures can be as complicated as "real" molecules. But subatomic particles from them. And that means, quantum molecules are far smaller than chemical molecules.

But this quantum super chemistry allows to create new quantum materials. Quantum super chemistry allows to make neutrons trapped in some kind of magnetic field interact with each other. Neutrons are polar baryons. And that means magnetic fields can trap those particles in a magnetic trap. The system can adjust trapped neutrons in the same quantum state. And those neutrons can form a neutron net. The neutron net is a more capable material than steel or graphene. But neutron net exists in the universe only in neutron stars.

If we think that we could make neutron material. With similar structures with graphene and fullerene, that thing makes new visions for power sources and things like armor. In the neutron balls, or neutron fullerene where neutrons form similar structures as carbon makes in graphene or fullerene is possible, that thing makes possible to create things like artificial miniature neutron stars.

Those things can offer communication ability by using neutron radiation. And there is the possibility that the artificial neutron ball can offer a new type of power source for exotic rocket engines. In that case, the radiation pikes from that structure will aim at the front and exhaust channels of the rocket chamber. The symmetry of the energy moves the craft forward. Those are the future visions.

This quantum chemistry might explain why magnetars have so powerful magnetic fields.

But there is the possibility that this kind of quantum chemistry explains the magnetar's extremely strong magnetic fields. The idea is that high energy, with extremely fast spin, will pull neutrons separately from each other. So in that case the neutrons hover in their quantum fields, and gravitation with weak nuclear force keeps the neutron structure in one piece.

There are only neutrons in a neutron star. All neutrons are N poles against another neutron's S pole. That means they are in the same direction. And those neutrons also spin separately. So those neutrons form an entirety that acts like a generator. But in that generator is multiple sub-generators that increase its energy level.

The distance between those neutrons is higher in magnetars than in other neutron stars. That means. There is no friction between those particles.

Quantum chemistry is an interesting thing. It allows to affect single bonds between atoms. Those bonds are like channels that allow to form special molecules. But quantum chemistry may allow the creation of molecule-shaped structures called quantum molecules. Quantum molecules are molecular-shaped structures.

But baryons or elementary particles are replaced atoms in those structures. Neutron stars are the biggest and the most well-known quantum molecules. Because neutrons have N/S poles. That allows the system that it can glue them with each other. And it's possible to create even more complicated structures.

https://scitechdaily.com/quantum-superchemistry-breakthrough-a-pioneering-discovery-by-university-of-chicago-scientists/?expand_article=1

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