Superconductivity and collapsible power plant satellites can be the systems that can slow climate change.

Image 1) "Experimental data from trilayer graphene (bottom) shows two circular Fermi surfaces, creating a ring-like shape, in which the occupied electronic states lie (top). In unconventional superconductivity, the electrons are assumed to be “glued” together by interaction, not to be confused with their usual interaction of electrical repulsion. (Courtesy: IST Austria)" (Physicsworld/New explanation emerges for robust superconductivity in three-layer graphene).

In that image, you can see that the outer electron is traveling the outer layer in the quantum field. And the inner electron is traveling near the structure. So the energy travels between those electrons from the outer quantum field to the inner quantum field. The idea is that the size of the outer quantum field is larger and its energy level is higher than the inner quantum field if the inner quantum field is lower energetic.

When electrons prowl the outer quantum field it travels a longer journey than the electron, which travels in the inner quantum field. More energy is transmitted in it than to electron that travels in the inner quantum field. So the structure inside the inner quantum field can turn lower energy by cooling it with the Bose-Einstein condensate.

The superconductivity with three-layer graphene can be more fascinating than we ever imagine. The reason for that phenomenon could be that the up and below the middle graphene layer would make the pressure effect that denies the oscillation of the middle layer.

The resistance is extremely low in 2D materials. Because the wires are so thin, oscillation in that kind of material has no similar effect with the oscillation in regular wires. That thing makes that three-layer graphene structure superconducting. The superconducting materials are interesting.

They can use in quantum computers but those superconducting materials are suitable to use in the systems that are synthesizing energy from the radio waves. The superconductivity can be very interesting if that thing is connected with Lorentz Butterfly. The Lorentz butterfly would be the superconducting antenna, that pumps energy to the system. The idea of that thing is that the energy level will rise in the system until it can transfer somewhere.

The 2D graphene and the systems that can transform radio waves can use as an energy source in long-term space missions. Those systems don't need nuclear fuel. But the problem is how high voltage those systems might have the ability to create.

https://physicsworld.com/a/new-explanation-emerges-for-robust-superconductivity-in-three-layer-graphene/

https://en.wikipedia.org/wiki/Fermi_surface

Image:https://physicsworld.com/a/new-explanation-emerges-for-robust-superconductivity-in-three-layer-graphene/

Collapsible power plant satellites can be in use sooner than we expect.

The thing is that the kilometer-size structure that is launched in one shot for testing the artificial gravitation can work as a pioneer for creating large-size space structures. Artificial gravitation doesn't mean that its strength is the same as the gravitation on Earth. The purpose of gravitation is to anchor objects to their positions. And the benefit of artificial gravitation is that it anchors also non-magnetic objects like flowerpots to layer.

The kilometer-size space structure can also be the pioneer for power plant satellite structures. The idea is that the large-size solar panels can be like small scaly silicon cells that are on the large mylar layer. That structure can make the power-plant satellites possible.

The mylar structure can connect to the power delivery unit. And the system can transmit energy to Earth by using lasers or radio masers. The energy transmission would happen by targeting that radiation to antennas. That kind of system is more flexible than the systems that are planned in the 1970s. The power plant satellites are introduced for the choice for use of fossil fuel. And maybe they are real sooner than we expect.

Some people resist that technology. Because those satellites can also use as killer satellites. And they can create megawatt-scale electromagnetic radiation that can affect ICBM swarms and those systems can also be dangerous for cities. Even if that satellite cannot destroy the houses or melt stone on the ground. It can form powerful EMP-pulses.

https://scitechdaily.com/kilometer-scale-space-structures-from-a-single-launch-for-generating-artificial-gravity/

Image)https://scitechdaily.com/kilometer-scale-space-structures-from-a-single-launch-for-generating-artificial-gravity/

https://miraclesofthequantumworld.blogspot.com/

The LK-99 could be a fundamental advance even if it cannot reach superconductivity in 400K.

The next step in superconducting research is that LK-99 was not superconducting at room temperature. Or was it? The thing is that there is needed more research about that material. And even if it couldn't reach superconductivity in 400K that doesn't mean that material is not fundamental. And if LK-99 can maintain its superconductivity in 400K that means a fundamental breakthrough in superconducting technology. The LK-99 can be hype or it can be the real thing. The thing is, anyway, that high-voltage cables and our electric networks are not turning superconducting before next summer. But if we can change the electric network to superconducting by using some reasonable material. That thing can be the next step in the environment. Superconductors decrease the need to produce electricity. But today cooling systems that need lots of energy are the thing that turn superconductors that need low temperatures non-practical for everyday use. When the project begins there is lots of ent

Black holes, the speed of light, and gravitational background are things that are connecting the universe.

Black holes, the speed of light, and gravitational background are things that are connecting the universe. Black holes and gravitational waves: is black hole's singularity at so high energy level that energy travels in one direction in the form of a gravitational wave. We normally say that black holes do not send radiation. And we are wrong. Black holes send gravitational waves. Gravitational waves are wave movement or radiation. And that means the black holes are bright gravitational objects. If we can use water to illustrate the gravitational interaction we can say that gravitational waves push the surface tension out from the gravitational center. Then the other quantum fields push particles or objects into a black hole. The gravitational waves push energy out from the objects. And then the energy or quantum fields behind that object push them into the gravitational center. The elementary particles are quantum fields or whisk-looking structures. If the gravitational wave is

The CEO of Open AI, Sam Altman said that AI development requires a similar organization as IAEA.

We know that there are many risks in AI development. And there must be something that puts people realize that these kinds of things are not jokes. The problem is how to take control of the AI development. If we think about international contracts regarding AI development. We must realize that there is a possibility that the contract that should limit AI development turns into another version of the Nuclear Non-Proliferation Treaty. That treaty didn't ever deny the escalation of nuclear weapons. And there is a big possibility that the AI-limitation contracts follow the route of the Nuclear Non-Proliferation Treaty. The biggest problem with AI development is the new platforms that can run every complicated and effective code. That means the quantum computer-based neural networks can turn themselves more intelligent than humans. The AI has the ultimate ability to learn new things. And if it runs on the quantum-hybrid system that switches its state between binary and quantum states,

Cogito ergo sum. I think; therefore I am (René Descartes, French philosopher)

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