A small piece of writing about the Higgs boson and its strange qualities

 

Is the spin of the Higgs boson equal to zero really or virtually? 

When particle accelerators are uncovering the Higgs' boson. They don't create it. They are releasing it by removing wave movement from around that boson. 

There is the possibility that Higgs's spin of Higgs's boson is virtually equal to zero. One version of that idea is that the Higgs's boson is in the extremely large quantum field. 

That means that the quantum field just slides over the other quantum fields. Or the spin of that particle is so high that we cannot recognize the changes in the wave movement. 

Theoretically, particles are like yarn balls. The particle is wave movement, turned to a ball-shaped form. There is "hair" on that particle. And when that "hair" is touching the outside quantum field it would slow its spin. During that moment the particle sends wave movement. 

If there is no hair on that particle it would not be slowing. And that means it would not send wave movement or the wave movement is straight or monotonic like some "OOOO". So we cannot detect that wave movement because it's monotonic. Changes in the particle's spin speed are the thing that causes the wave movement that sends wave movement and turns the particle detectable. 

Another version is that the particle's spin is extremely high that its hair makes the electromagnetic vacuum around it. That thing causes the phenomenon, where the particle has two quantum fields. The outer and inner quantum fields. 

If the quantum field is too large, the wave movement from the inner quantum field disappears. Or the observers cannot separate it from the shaking or waving of the larger quantum field.  If the quantum field of the small particle is too large it collapses. Because the energy from outside pushes it to a smaller size. 

Why Higgs' boson is so dangerous?

Higgs' boson is the only known scalar boson. The spin of those bosons equals zero. That means there is no side-moving wave movement. And that means the Higgs' boson is extremely hard to see. There is the possibility that Higgs' boson involves in all other particles. So if some kind of energy load is coming through the Higgs' boson that causes the phenomenon where the energy load that comes from Higgs' boson is ripping all other Higgs' bosons into pieces. 

That thing will erase all material from the space. The term scalar boson means that they are like the nucleus of all (or almost all) other elementary particles. And the other particles are the superstring, wave movement (or information) that is accumulated at the surface of those bosons. And the hypothetical graviton particle is the tensor inside Higgs' boson. 

But there is another possibility that can explain the strange behavior of the Higgs' boson. The spin of the particle can equal virtually zero. That thing means that the particle is smooth, as I wrote many times. The idea of the virtually zero spin means that there is no interaction or changes in the energy level of the quantum field that surrounds the Higgs' boson. 

The term "spin" doesn't only mean that the particle is rotating. That term can also mean the interaction between the particle and quantum fields around it. If there is hair on the particle, that hair causes changes in the quantum field around the particle. If the spin of the particle is very high we cannot detect the changes in energy level in the quantum field of the particle. 

Or actually, the hair must be high enough that it can come out from the particle's quantum field. The hair of the particles is sending radiation to the particle's quantum bubble. And that causes interaction between the outside quantum field. The thunder that makes it possible to see particles are coming from the particle's quantum field and outside quantum field interaction. 

So if the hair of the particle is inside the particle's quantum field its quantum field is smooth. That means the interaction between particles and outside quantum fields is like interaction with smooth surfaces. So the interaction is silent. If the Higgs' boson is released from other elementary particles. It hovers in the extremely large quantum field. That quantum field makes it impossible that the hair of the particle cannot reach the edge of its quantum field. 

And if the only thing that sends some kind of wave movement or chancing wave moment is only the nucleus of that Higgs' boson. That thing means that this radiation resonates only with other Higgs's bosons or the interaction happens only between other nucleuses Higgs' bosons. But that interaction requires that the Higgs' boson is released from its core. And it would very fast collect superstrings around it and form the new particle. So, that means Higgs' boson is in all other particles but only the highest energy levels can release it by removing superstrings around it. 

See also:

Higgs boson

Scalar boson

Standard model of physics

https://miraclesofthequantumworld.blogspot.com/

Could the standard model of physics crack?

In the image above the hypothetical graviton is connected to the Standard model. It forms the new group of bosons. And that group is tensor bosons. The scalable bosons are proven when the Higgs boson is found. But we know that there might be many unknown particles. 

And in some visions, the graviton is a particle that orbits other elementary particles. The graviton would be the particle form of the gravitational waves. And it forms because of the wave-particle duality of the gravitational waves. 

So what is the direction of the gravitation? 

If we think that the gravitation is like a light that has the particle and wave movement form we might understand the direction of the gravitation. 

When the wave-form gravitation hits the graviton. That is the particle form of gravitation. That causes scattering in the wave-form gravitation. 

That scattering makes the electromagnetic or quantum shadow between that graviton and particle. And then that thing would just pull the quantum field of the particle that could be quark or any other particle. That movement moves the quarks to that quantum low-pressure area. And because the graviton moves the quarks that thing moves atoms. 

The graviton could be the orbiter of quarks and electrons. (Or maybe it orbits all elementary particles). 

There is the possibility that the graviton orbits other elementary particles. If that thing is true. The companion particle that orbits other elementary particles could explain the Muon G-2 anomaly in Brookhaven and Fermilab. It can also explain why W-boson is 0,1 times heavier than it should be. If we think that all elementary particles have an orbiter. That thing causes an anomaly in the trajectory of high-speed electrons and muons. 

If we are thinking that the small particle is orbiting electrons and other elementary particles we can understand why mysterious gravitons are hard to detect. So graviton would be a similar elementary particle with electrons and quarks. The origin of the graviton would be in the wave-particle duality in the gravitational waves. 

And if we think that graviton is the companion particle that orbits quarks and electrons. That thing means that when gravitational-wave impact those particles. They are starting to stretch the quantum field of the particles. That thing makes the quarks move in a certain direction. If the graviton is the companion particle with almost all of the elementary particles. That explains why its effect is neutral. 

Also, the electron's ability to send the photon or light quantum while it is changing its direction. Can be explained by the companion particle. The quantum field of the fast-moving electron turns strong. And then the particle that follows the electron would act like a car trailer when the car moves at high speed on a curved road. The particle that follows the electron touches the quantum field of the fast-moving object and then it sends the light quantum when the energy level of that particle turns too high. 

The graviton could be the "dark photon". 

That thing means that it probably cannot move electrons. But it can move the quarks inside protons and neutrons. So the graviton might have a similar shape to photons. It might have wave- and particle forms. 

If the speed of the particle raises near the speed of light. That causes an electromagnetic vacuum behind it. And that hypothetical but predicted particle would follow the particle. During the collimation of electrons and positrons, the small particle is extremely hard to detect because the impact causes energy and particle cloud where that extremely small-mass particle is hard to separate.

The case that some particle is following the electron or some other elementary particle in the particle accelerator could explain, why electrons are stretching when they are traveling in that magnetic trajectory. The following particles along with electromagnetic or quantum vacuum make it possible that the quantum field of the electron and other elementary particles is starting to stretch backward. 

What is the origin of dark matter? Is it graviton?

This thing is an endless question. Dark matter is the gravitational effect that is dominating the universe. Sometimes researchers are thinking that dark matter is the source of dark energy. But let's talk a little bit about the origin of dark matter and how its source could be gravitation itself. The fact is that. We almost know that gravitation is wave movement. Or at least gravitational waves exist. So the particle-wave duality is possible in gravitational waves just like it's possible in photons and quarks. 

And that means that gravitational waves can turn into a particle called the graviton. So why graviton is so hard to detect? There is the possibility that graviton is orbiting some elementary particles like electrons and quarks. Or it can orbit each of the elementary particles. The companion particles of the elementary particles can explain the Muon G-2 anomaly in Fermilab and Brookhaven. 

https://www.livescience.com/heavy-w-boson-measurement-cracking-standard-model

https://www.quantamagazine.org/fermilab-says-particle-is-heavy-enough-to-break-the-standard-model-20220407/

https://www.space.com/dark-matter-origin-gravity-theory

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

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

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

https://miraclesofthequantumworld.blogspot.com/

Does the dark matter has a particle form at all?

Dark matter means the mystery gravitational effect. The thing that forms this effect can be the material. Which elementary particles have a different size than the elementary particles of visible material have. 

That thing means that the wave movement that those particles are sending has the wavelength that makes it invisible. Another version of dark matter is that thing has no particle form at all. That means dark matter is the wave movement called dark energy. 

Image 2 is the neutron. The gluons jump between quarks. Neutron is formed of two down quarks and one up quarks and gluons. The image could portray a proton. Because it has a similar internal structure with a neutron. But the proton is formed by one down quark and two up quarks and gluons. 

The wavelength that those quantum tornadoes or rotating quantum channels are sending. Would be different than other particles sending. That thing makes the wave movement invisible. And maybe axions are hiding in those quantum tunnels. There is the possibility that there is a quantum vacuum in those tunnels. And that means outcoming energy pushes those quarks to one entirety. 

Image 2: https://en.wikipedia.org/wiki/Neutron

The mass of hypothetical axion-particles could tell the form of the dark matter. The thing is that the cosmology is that the dark energy is one of the mysteries that can solve another mystery. The mysteries of the dark universe is the thing that can solve where the material came from. 

The name axion of that theoretical particle is coming to an idea that the form of that thing could be elongated. Theories are telling that material is formed in wave-particle duality. That was caused by the mysterious event called  Big Bang. The question about the Big Bang is interesting. Was that thing released only energy that impacted with wave movement that already exists? And that impact caused the wave-particle duality that formed the visible universe. 

The thing is that dark matter is the mysterious gravitational effect. That means that there is the possibility that dark matter has not necessarily have a particular form. The dark energy or a dark wave movement that affects some extremely small particles can cause mysterious gravitational effects. That wave movement can affect the gluons and make them heavier or put them to a higher energy level than they should. 

The form of Dark matter is interesting. And maybe quite soon the researchers can answer two questions.

1) Is dark matter similar material with the visible material? That means the dark matter could turn to wave movement and otherwise. But if dark energy is the same thing as dark matter. That means the dark energy could create the gravitational effect. 

So that means the dark matter would not necessarily have the particle form. The dark wave movement that affects the gluons or some superstrings could cause the mysterious gravitational effect called "dark matter". 

2) And can the dark matter form atoms or molecules? Like visible material? The galaxies where is no dark matter is an interesting detail. 

That tells that dark matter can form the structures like visible material. But are those dark matter structures some kind of clouds of nebulas formed of dark matter? Or is there some kind of more complicated structures that are formed of dark matter? 

The weakness in the Big Bang theory is that it doesn't answer where the thing that exploded came from? 

The Big Bang theory is always the solution for the origin of the material. But where did the material or wave movement  Big Bang released come from? The moment of the Big Bang is point zero in the universe's history. But what happened in the point minus one (-1)? 

There was something that released the material to the universe. Or is it so? If we think that dark matter is the dominating form of material. There is a possibility that the crossing wave movement turned the dark matter into visible material. 

So if the dark matter is similar material with the visible material. The answer for the Big Bang can cause because of the wave-particle duality. But getting acceptance of this theory dark matter should have a similar particle form with the visible material. 

There is the possibility that the wave-particle duality forms when the quantum fields of the particles will touch each other. That thing can cause quantum friction or quantum spark. That thing will turn the quantum field or the superstring that forms that quantum field turns to a roll or yarn ball-shaped structure.  

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

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

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

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

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

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

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

https://thoughtsaboutsuperpositions.blogspot.com/

The new sensors try to find differences between the Theory of General Relativity and the Standard model.

"Illustration of two orbiting black holes warping spacetime and generating gravitational waves". (ScitechDaily/Gravitational Waves: LISA and the Detection of New Fundamental Fields – Is General Relativity Correct?)

The Theory of General Relativity is one of the most brilliant theories in the world. The Standard Model is the first theory that is made by using computers. And that thing means that they both are fundamental and powerful tools for researchers. The thing is that the gravitational waves give a new way to detect things like Dark Matter. The gravitational waves can uncover many things from the universe that we cannot observe. 

There is suspicion that gravitational waves are the energy waves that travel between particles of dark matter. So when energy impacts dark matter particles that increases their weight. And that thing could be seen as gravitational waves.

The gravitational waves are the mysterious energy waves that are traveling in the universe. The thing is that the gravitational waves can be the energy waves that are traveling between particles of dark matter. When radiation hits the particles of dark matter that radiation turns it heavier. So the radiation has a similar effect to visible and dark matter. 

It will increase its weight. And maybe that kind of radiation is the key to dark matter and gravitational waves. The thing is that gravitation is the only known common interaction between visible and dark matter. And that means the dark matter would be similar material with visible material. 

The dark matter would transmit radiation that has a wavelength that is the same as the diameter of the particle that sends it. The thing is that the proof that all galaxies don't have dark matter has caused an observation that dark matter forms similar clouds and maybe other structures as visible material. When we are thinking about dark matter. 

That thing is only invisible material. But if we would think otherwise and there would be an observer that is a form of dark matter. That observer cannot see us either. Dark matter is a mysterious state of the material. In some theories, dark matter is only the certain energy state of the material. 

And there is an interesting theory that the Big Bang just transformed some part of dark matter into material that we see. The size of particles of dark matter would be different than visible material. And that thing means that dark matter would not be observable because it transmits radiation that is invisible to us. In some wild theories, dark matter could form even stars. And solar systems. 

Those structures would interact with visible material only by gravitation interaction. Maybe gravitational waves can prove that kind of structure real. If researchers could find the gravitational field that comes from the emptiness. That thing can be the first evidence of the invisible universe. That is similar to our universe. But we cannot see that universe because it is formed of dark matter. 

https://scitechdaily.com/gravitational-waves-lisa-and-the-detection-of-new-fundamental-fields-is-general-relativity-correct/

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

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

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

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

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

Image:)https://scitechdaily.com/gravitational-waves-lisa-and-the-detection-of-new-fundamental-fields-is-general-relativity-correct/

https://thoughtsaboutsuperpositions.blogspot.com/