The ice-cube sensor detected the high-energy tau-neutrinos.

The ice-cube sensor detected the high-energy tau-neutrinos. Those mysterious ghost particles' form and weak interaction are some of the most interesting things in the universe. The neutrino is sometimes called a "grey photon". The weak interaction means that the neutrino can travel through planets without interaction. And only direct impact with other atoms makes that mysterious particle interact and release its energy.

The thing that could help to solve the mystery of neutrinos is the charm quark, that researchers discovered in the proton. The charm quark is more massive than other particles in the proton. So the charm quark is heavier than a proton, where it should be involved. Maybe charm quark spins so fast that it hovers in the proton.

The idea is that fast-spinning particle makes the quantum supercavitation effect. When the propeller super cavitates, it starts to spin in a bubble, where it cannot touch the water. So we can use supercavitation as the model of how the fast-spinning particle acts in the quantum field.

If a particle spins fast enough, it forms a bubble around it. The quantum field acts like water. And if a particle spins "too fast". The particle forms a quantum bubble around it. The fast spin means that the quantum field cannot touch that particle. That ultra-fast spin can cause a situation, where the particle simply pushes other quantum fields from around it. And the only time when a particle can cause interaction is that. It hits directly into the atom or some subatomic particle.

In this model, the fast spin causes a situation in which the particle tunnels itself through the material. But can neutrinos be faster than light?

There is a model that neutrinos can travel slower than the speed of light. But the fast spin makes the shell of that mysterious particle move faster than the speed of light. The idea is that neutrino travels its axle vertically to its trajectory. That means the spin of a neutrino makes its shell move faster than the speed of light.

The other version is that the wobbling spin of some, yet unknown particle forms the neutrino. In this model, the unknown particle's spin is similar to the electron's spin. The particle moves back and forth. That very slow but fast spinning particle could be the hypothetical weakly interactive massive particle (WIMP). The WIMP moves slowly but spins very fast. And if the WIMP spins like an electron, it sends the energy impulse all the time, when it changes its direction. And wave-particle duality turns that energy impulse into the particle called neutrino.

The speed of light depends on the environment. That means the speed of light is higher in space than in the atmosphere. The speed of light is higher in the atmosphere than it is in water. And neutrino detector benefits this thing. When a particle moves from another environment like from interplanetary space to the atmosphere it releases its energy as a blue light flash called Cherenkov radiation. So in a small moment particle travels with a speed that is higher than the speed of light in the medium.

The neutrino detector detects neutrino when its speed decreases, and it releases its energy as a blue light flash. Neutrino arrives at the sensor with speed that is lower than the speed of light. But its speed is faster, than the speed of light in a medium like water. When a neutrino hits something it releases its kinetic energy in the form of a blue light flash, called Cherenkov radiation. That radiation makes the sky blue because particles hit Earth's atmosphere at a speed that is higher than the speed of light in the atmosphere.

That means the neutrino has already released its energy when it hits the neutrino detector. That means that the neutrino's speed can be far higher in interstellar space than it is in our solar system. There is a theory that neutrino is a transformation particle of a hypothetical tachyon, faster than a light particle. In theories, the tachyon can form in antimatter annihilation in interstellar space. When that particle travels in the solar system, the plasma around the star slows its speed, and maybe the neutrino has been tachyon.

https://bigthink.com/hard-science/ghost-particles-icecube-confirms-deep-space-quantum-phenomenon/

https://www.livescience.com/protons-charm-quark

https://www.sciencenews.org/article/proton-charm-quark-up-down-particle-physics

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

https://en.wikipedia.org/wiki/Spin_(physics)

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

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

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

What is the difference between TR-3A and TR-3B? And are those planes real?

What is the difference between TR-3A and TR-3B? And are those planes real? Is TR-3B (0) "Black Triangle UFO" or is it only the piece of paper? The study project, what is used to create advanced ideas for use of the nuclear-powered aircraft. Or is it the study project or black budget aircraft, where lost 2,3 trillion dollars (1)of the stealth bomber were gone. In this text is things, that might seem very difficult to accept, and when we are thinking about things like doubling the object or making it smaller by using huge layers of energy, nothing denies to test those things. But were those tests successful, there is no data about that in public Internet, so we must say that things like doubling the human or aircraft can be tested, but the results can be unknown. But in the source two is the tale, what seems like impossible, those men, who got Noble Prize put at first time one atom to the box, and hit it with photon one photon in the box and hit it with th

Mythic Planet X is an interesting thing because that allows the way to the perfect stealth technology.

Mythic Planet X is an interesting thing because that allows the way to the perfect stealth technology. Could a hypothetical Planet X tunnel all radiation? The myth of Planet X still lives. Nobody ever saw that planet, and the thing that supports the theory of previously unknown large-size planets in Kuiper's belt are mysterious anomalies in Neptune's trajectory. The thing is that nothing else supports the theory of the existence of the "invisible planet". The size of the planet must be very big. And its gravitational field strong that it can affect Neptune's trajectory. And the search for that mysterious planet is very long work. In some visions, the mysterious gravitational source is mentioned as the small black hole, but nobody understands why that black hole doesn't seem to interact. In some other theories, Planet X is a glimpse of dark matter. And that thing makes it invisible. But there is one weakness. The dark matter object must have some kind of

Nanoparticles are excellent tools for medicine transporters.

"Researchers have developed a new therapy for pancreatic cancer involving nanoparticles that stimulate immune responses and improve drug delivery. This innovative method has led to significant tumor reduction in mice and holds potential for treating other cancers. Credit: SciTechDaily.com" (ScitechDaily, New Nanoparticle Cancer Treatment Successfully Shrinks and Eliminates Pancreatic Tumors) Nanoparticles can carry medicines into wanted cells. The idea is that the same system that feeds those cells transports those nanoparticles into cells that need medicine. When a nanoparticle goes, into a cell, it releases the chemicals into the targeted cells. Because nanoparticles don't let medical molecules interact with a body that makes it possible to create new and more powerful cytostatics. Nanoparticles can transport things like ricin molecules into wanted cells. Ricin is one of the most poisonous chemicals. That chemical is useful for next-generation cytostatics, if researche

Writings about astronomy and technology.

Search This Blog