Magnetic monopoles and why they are interested researchers?

The quantum-size magnetic monopoles like electrons and protons are possible. But the larger size structures are very hard to make. And nobody reported a successful attempt to make this thing. 

The large-size magnetic monopoles are impossible. The magnetic monopoles could use as magic sticks for making the nanomachines. They can use to move ions and atoms around the table. But the large-scale magnetic monopoles can make many other things. Theoretically is possible to use a magnetic monopole to push the magnetic field away from the object. 

What makes monopolar structures interesting? The monopolar particles and objects are making time travel and interstellar flight possible. The quantum fields can remove from some areas by using a monopolar structure, but the magnetic pushing force is the thing that makes those structures extremely hard to make. 

The only stable monopolar structure is the quantum size particles like electrons and protons. So when people are talking of electrons in this case, the same things are suitable for protons. And the electron crystal can also mean proton crystal. The idea is that the structure is made by using particles that have the same polarity. 

Monopolar objects are one of the fascinating things in physics. Electron is the monopolar particle and monopolar is possible in the quantum world. But making larger stable monopolar structures is difficult. 

In monopolar objects is only one pole and that thing makes it very interesting. Because by using monopolar particles is possible to remove quantum fields from some area. The idea is that the monopolar object's magnetic field is just pulled outside that object. 

And then the system should make the "bubble of nothingness" at that point. A time machine that takes people backward in time could be made by using this type of bubble because the monopolar field can be pushed away from that object. If the electromagnetic fields or quantum fields are removed from some area that means the time dilation ends. And the time would start to travel faster in that bubble. The idea is that the magnetic monopole would put in the monopolar ion flow and then the magnetic field will push those ions away from the object. 

The large-scale monopolar make time machines and interstellar spacecraft possible. If the object would be in the monopolar electric field and the electric field will pull away without pumping more energy inside that energy bubble that would remove the quantum fields from that area. 

When the high-speed electric particle will launch in that bubble of nothingness it can move faster than the speed of light in natural space. In that absolute vacuum, the quantum fields are not slowing it. But absolute vacuum means that the object is surrounded by a bubble where are no electromagnetic fields. 

The speed of it would rise higher in that area. Where quantum fields are removed from what it is in nature. In normal space, the speed of light has a limit because quantum fields are slowing the particles. The idea is similar to Cherenkov radiation. There will create an area where the speed of light is higher than in other places. And then the ion thruster will launch ions to the wall of that bubble. The large-size magnetic monopoles should exist. Because of the Pauli exclusion principle, there are no two identical electrons in the same quantum system. But that requires that the quantum gravitation would win the electromagnetic pushing effect. 

But in this day the magnetic monopoles are existing only in quantum size. Electrons are only known as magnetic monopoles. There have been made theoretical models on how to make stable electron structures. And in some ideas, the electrons are stressed with different levels of electromagnetic radiation which increases the power of their quantum gravitation. And the magnetic monopolar structure would be made by using quantum gravitation as glue. 

But the thing that makes this kind of thing a little bit difficult to make is that the monopolar structures. That is made just by using protons or electrons are very difficult to make. In that kind of thing, the particles would push each other out from the structure. 

And that is the thing that makes the monopolar structures hard to handle. But it's theoretically possible to make the crystal structure by using electrons. The idea is to base the "Pauli exclusion principle" as I wrote earlier. The electrons would stay in the form if they are positioning themselves right. The idea is that the highest energetic electron is in the middle of the structure. 

And the structure would stay together by using microgravity. In some other theories, the structure is used neutrinos as the "glue". This is the thing that makes hypothetical fermion stars interesting. The time would travel very fast around those monopolar fields. 

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

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

https://thoughtandmachines.blogspot.com/