“A long-standing mystery surrounding an unusual superconductor has taken a decisive turn. By carefully applying shear strain to ultrathin crystals of strontium ruthenate, researchers found that its superconducting transition temperature remains almost completely unchanged. Credit: Stock” (ScitechDaily, A 30-Year Superconductivity Mystery Just Took a Sharp Turn)
The Meissner effect is the key. Into. Ultimate stealth. And low noise flying. In the second image, you can see how the energy field or quantum field travels past the object, causing the lifting effect. The Meissner effect causes ideas. If researchers can create the material that avoids the situation where electron shells fall closer to the atom's core, it would make it possible. To create room-temperature superconductors.
In superconductors, the material is in the Bose-Einstein state. That means their energy level is very low. The distance of electrons to the atom’s core is very long. When. Outside energy pushes atoms. It pushes. An atom’s electrons. To the atom’s core. When the outside quantum field transports energy into an atom. That effect. Pushes electrons. Close to each other. And the atom’s core. That raises energy density in the atom. That pushes atoms away from each other. And that destroys the superconducting.
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“Diagram of the Meissner effect. Magnetic field lines, represented as arrows, are excluded from a superconductor when it is below its critical temperature.” (Wikipedia, Meissner effect)
T= Real temperature
TC=Temperature critical. Critical temperature is the point. At which the object can form the surrounding quantum field. Which closes its particles inside one quantum field. The idea of the Meissner effect is that every particle is inside the quantum field. The particle that can be an elementary particle or atom is in the middle of its quantum field. When.
The quantum field moves. The position of the particle in relation to the field changes. Because particles attempt to position themselves in the middle of their quantum fields. Moving that field. Moves particles. Theoretically, it is possible to create a quantum system that moves the craft in a way that seems to break natural laws. The system can hover using the Meissner effect.
This requires that the entire craft’s shell turn into a superconductor. Then the system must only adjust the position of the quantum bubble that surrounds the superconducting craft. This means that the object attempts to position itself in the middle of the bubble. This thing moves the craft.
The idea is a “stolen” or adjusted version of the idea that there is a dark matter halo that moves a galaxy. The dark energy will not affect matter. But if the source of dark energy is in dark matter. The dark matter. That sends dark energy, that is the wave movement.
Dark energy. With. The source is in. Dark matter particles can affect. To Other. Dark matter particles. Dark energy moves. The dark matter halo around the galaxy. And because the galaxy attempts to position itself. Into the middle of the dark matter halo, moving that halo moves the galaxy.
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The Meissner effect in the superconductor is possible because particles in the superconducting material are in an extremely low-energy condition. There is no oscillation between particles. This means energy from outside travels to the superconductors.
And then that energy pushes particles closer together. Those particles are inside one. A very large. Quantum field. When energy starts to travel from below to that object, those particles act. As. One entirety. This thing forms. An. An electromagnetic low-pressure or lower-energy area above the superconductor. The energy that comes from below pushes a superconducting object above the ground. The reason why the same effect cannot push other objects up is simple.
The quantum field that pushes objects upward cannot travel between particles at higher temperatures. In the case of superconducting objects, the quantum field around objects doesn’t allow the pushing field travel in the objects. Those are in the superconducting condition. Because. There is no oscillation in the object, and that doesn’t allow the outside radiation to travel between particles. For making levitation, the lifting field must have a pushing effect.
Into. A so large area that it can affect as many particles, that the electromagnetic shadow pushes the entirety up. The energy must not also travel in the object. When. We think of the possibility. Of using the Meissner effect. As levitation. It's possible to cover the surface with. Large number. Of superconducting particles. Those superconducting points can lift even large objects from the ground. Or they can decrease the weight of the object.
https://scitechdaily.com/a-30-year-superconductivity-mystery-just-took-a-sharp-turn/
https://scitechdaily.com/physicists-crack-a-new-code-to-explore-dark-matters-hidden-life/
https://en.wikipedia.org/wiki/Meissner_effect
