The demon particle is found inside the superconductor.

The demon particle is found inside the superconductor.

What if we cover the metal layer with electrons?

The demon particle solves a 67-year-old mystery. The particle is not a particle like a proton or an electron. It's a composite particle made of electrons. And the thing that this demon particle, or "super electron," does is make the electrons in metal act like massless waves.

There is a possibility that this massless wave opens the road to room-temperature superconductors. The super electron, or Pine's demon, is massless because it hovers separately from the rest of the material. The problem with this quasiparticle is that it exists at very low temperatures.

Pauli's exclusion principle might make it possible to create conditions where that quasiparticle can exist at room temperature. That principle means that there are no two identical fermions in a quantum system. So energy travels from a higher energy level to a lower energy level, and systems can use those energy flows as the glue that ties those fermions together. And electrons are also fermions.

And maybe we can use the same technology as in quantum computers to make that kind of electron ball. The system could use the superposition of electrons. The problem is that the system must control the electron's spin.

"Researchers have discovered Pines' demon, a collection of electrons in a metal that behaves like a massless wave. Credit: The Grainger College of Engineering at the University of Illinois Urbana-Champaign." (Cosmosmagazine.com/Physicists confirm existence of “demon” particle)

"Supercooled superconductor samples float above and beneath a magnet. (Image credit: Charles O'Rear via Getty Images)" (Space.com/Bizarre 'demon' particle found inside superconductor could help unlock a 'holy grail' of physics)

But if there is an electron cushion between the layer and the ground, that thing can use magnetic levitation. Superconduction plays an important role in MagLev or magnetic levitation systems. The problem is that freezing those large-scale magnets requires lots of energy.

The electron cushion can act as a fundamental engine. If energy impulses stress those electron waves, that can make the system hover or travel extraordinarily. There is a possibility that the laser ray that shot through the craft decreased its shell's temperature to the point that it turned superconducting.

The superposition means that electrons have potholes, and theoretically, it is possible to combine electrons by using those quantum potholes. Then there must be some other particle that glues electrons together. If the system can cover some layers with a hovering electron layer or 2D electron structure, that can make superconducting at room temperature possible. Electricity travels in that electron cloud, where electrons are separated from atoms.

Another way to make the electrons hover at a certain distance from the layer is to use accurately controlled magnetic fields. The cathode tubes can shoot electrons below the layer. And then the system traps them by using proton beams. Those electrons will send waves of movement to the ground, acting like superconductors. Some systems send an energy impulse to those electrons, and they remove the extra energy as energy flashes. That thing can be used as fundamental engine technology.

https://cosmosmagazine.com/science/physics/demon-particle-found/

https://www.space.com/bizarre-demon-particle-found-inside-superconductor-could-help-unlock-a-holy-grail-of-physics

https://www.msn.com/en-us/news/technology/scientists-discover-demon-particle-that-could-redefine-physics/ar-AA1fjcBU

https://technologyandfuture4.wordpress.com/2023/08/21/the-demon-particle-is-found-inside-the-superconductor/