"Researchers study neutron star crusts by simulating neutron matter and then adding “hidden” neutrons to mediate interactions between “real” neutrons. Next, neural networks construct a quantum wave function of neutron matter’s normal and superfluid phases. Credit: Jane Kim, Ohio University" (ScitechDaily, Revolutionary AI Unlocks the Superfluidity Secrets of Neutron Stars)
The AI gave a model of the neutron star's superfluidity. Superfluidity is the neutron star's inner structure's feature. There. Neutrons travel without resistance. That thing makes it possible to create an extremely powerful magnetic field. The question is: how is possible? That those neutrons that travel without resistance can form that magnetic field? The superfluid acts as the lubricating oil between the neutron star's shell and its core. Those neutrons do not form electromagnetic energy. They just harvest energy that forms when a neutron star pulls material to it.
"Understanding neutron superfluidity provides important insights into neutron stars. It sheds light on their cooling mechanisms, their rotation, and phenomena such as glitches—sudden changes in their rotation rate. While scientists cannot directly access neutron star matter experimentally, the fundamental interactions that govern this matter’s behavior are the same as those that govern atomic nuclei on Earth." (ScitechDaily, Revolutionary AI Unlocks the Superfluidity Secrets of Neutron Stars)
The superfluidity means that the interaction between neutrons in that point, and other structures is minimal. But the thing that creates the magnetic field requires something else. Than just fast-traveling neutrons. In some models, neutrons will start to spin in that superfluid. That thing turns those neutrons into small generators. And then. The electromagnetic force puts them hover in the superfluid. The superfluid plays a role in the neutron stars' magnetic field.
But how big is that role? How much energy do the superfluid neutrons create and how much energy the spinning shell makes?
That means that is possible that the superfluid forms when neutrons lay between a neutron star's shell and its core. The structure of a neutron star makes it possible for the outer shell and neutron star's core to spin at different speeds. Or it's possible. That the neutron star's shell spins in an opposite direction than its core. That turns the neutron star into the most powerful generator in the universe. That generator gets its energy from the material. That impacts to neutron star's shell. That means that a neutron star transforms energy into the form of pure electromagnetism and gravity.
The superfluid is an interesting thing. If researchers put the superfluid rotor in the magnetic nanotube that can make it possible to create a new type of system that transforms heat into electricity. In that system the magnetic nanotube there is the superfluid turns into a nano-size generator. The heat causes that hovering structure to spin. And that is the new type of solar energy harvester.
There is the possibility that by making fullerene-iron or some other magnetic metal combination researchers can create molecular versions of superfluids. The magnetic superfluids make it possible to create generators whose rotor speed is extremely fast. Maybe somewhere in the future magnetic nanotubes make it possible to create structures that create very high energy levels using the nanogenerator.
https://scitechdaily.com/revolutionary-ai-unlocks-the-superfluidity-secrets-of-neutron-stars/
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