The AI gives a new way to track particles. The AI-based analysis makes it possible for the system. It can collect information from multiple sensors. And compile that data with previous tests with ultra-high accuracy and speed. The AI can analyze the particle tracks in the impact chambers.
It can observe particle behavior in particle accelerators. The AI can also collect data from things like telescopes and satellites and connect that data with data that the system collects from multiple particle accelerators that impact particles in different energy levels.
This thing makes the revolution in physics. The system can compile the cosmic radiation effect with particle impacts. And that gives new data for the systematic models of the universe.
That model is important for making things like gravitational models. The thing that supernovas send the gravitational waves is interesting. The idea is that gravitational waves are shortwave radiation or wave movement. The supernova energy raises energy levels so high that electromagnetic wave movement can start to interact with gravitational waves. The gravitational wave is wave movement. Which wavelength is different than electromagnetic wave movement?
And then to the black holes. The thing that we can call the sombrero model is the tool that tries to explain the black hole models. The high energy center, energy hill, and the energy wall between standing energy waves make energy travel to the energy hill a good gravitational field model. In all gravity fields. Without depending on their strength. The black hole is the ultimate gravitational field. But it interacts similar way as other gravity fields. The depth of the energy valley in the sombrero model determines the gravity interaction's strength and direction.
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| Sombrero-model |
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The theoretical antigravity engine works like this. The system creates a sombrero-shaped energy field. The theoretical antigravity craft hovers in the middle of that energy hill. That energy hill moves craft forward. And the energy Walley pumps energy in that craft.
Maybe, someday this system is possible.
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J = total angular momentum, B = baryon number, Q = electric charge,
I3 = isospin, C = charm, S = strangeness, T = topness, B′ = bottomness. (Wikipedia, quarks)
Researchers created the sombrero model for electromagnetic fields. But we can think that all wavelengths and power fields follow the same model. So how does the famous antigravity work? The idea is simple. There is forming a standing gravitational wave under, or around the object. Then the system must make the opposite sombrero. There must form the deeper energy Walley at outside the standing wave. Or the energy level inside the standing wave must be higher than the environment. Or the standing wave must simply deny the gravitational waves travel inside them.
The second image shows how gravity works in a 2D environment. When particles rotate they roll energy or quantum fields, including gravity fields into the structure, which looks like a rope or stick. The particle or object hovers above the stick and presses the pothole in the gravity field. That pothole makes the environment or quantum fields fall in that pothole. Then that stick collects the energy and transports it to the object, and that thing makes it act like a gravitational version of the thermal pump. When the thermal pump moves electromagnetic energy, this pump moves gravitational waves.
In the antigravity, the system must just cut that stick. That denies the form of the pothole. Or the system must send some radiation that fills the pothole. That makes the object hover. And if somebody wants to make an antigravity engine. That futuristic researcher must make the black hole or the "sombrero field" where that futuristic craft is in the middle of that energy hill.
The third image shows how high-energy radiation pushes quantum fields from around it. That channel forms an effect where the field starts to travel in it. The image was made originally for a gamma-ray burst and a black hole's radiation interaction with its environment. If radiation has a high enough energy level. That radiation can also push the gravity field from around it.
Quantum gravity has a similar effect. The energy flow or energy stick transports energy between particles and the base energy field. That energy forms low-pressure or potholes in energy fields. That energy channel or pothole forms the effect, where the energy field acts like water, which transports particles in that pothole.
There are always three quarks in baryonic hadrons. Energy flow in neutrons that form one up and two down quarks creates energy flow that makes the pothole in the quantum field. And that means that we can say, that neutron hovers above the gravity field.
Between protons and their environment is a similar interaction. But the energy flow is weaker. The energy flow happens because the up quark energy level (mass) is lower than the down quarks. And energy flows through those up quarks.
This is why neutron life is so short if it gets out from the atom nucleus. The energy flow. From down quark-pair impact an up quark. And that forms the standing wave that breaks the bonds between quarks.
Energy flows straight out from protons through those up quarks. That effect squeezes the proton in a heap. But the main reason why a proton exists longer than a neutron is that there is no standing wave. When energy impacts the proton it travels straight through it.
https://scitechdaily.com/unveiling-new-physics-with-ai-powered-particle-tracking/
https://en.wikipedia.org/wiki/Neutron
https://en.wikipedia.org/wiki/Proton
https://en.wikipedia.org/wiki/Quark
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