Thank you for inviting me, sir! Sir, the question is simple! After reading this picture, I understand everything. Science is for learning, not for attacking others. Real scientists have a conscience, unlike some people who play dumb. Thank you. I wish you health and safety!
If this mechanism is discovered, the Nobel Prize will be a cinch. As early as Einstein's time, scientists found that there was a demonic distance effect between quanta, that is, the speed of information transmission far exceeded the speed of light.
This leads to another classic question: Can the speed of light be surpassed? For this question, the answer given by practical physics is no, because the possibility of exceeding the speed of light has not been found in theoretical and practical observation. But is this the case?
According to the laws of physics, it can be concluded that all the sources and carriers of vibration and information are substances, and mechanical vibrations such as sound are well understood, but there is no clearer conclusion about light and electromagnetic fields. Light and electromagnetic fields are recognized vibrations, but they cannot be directly observed. But as long as we admit that vibration comes from matter, the problem is simplified, that is, the field is also matter. This was not recognized decades ago, but now the definition of matter has included this invisible and intangible field. Scientists distinguish and define fields through various effects of fields, such as force field, electric field and magnetic field.
The field is materialized. Although its quality and other properties cannot be directly determined, there is no doubt that it exists. Now dark matter is the carrier of the field, and it is estimated that the mass of dark matter accounts for a large proportion of the total mass of the universe.
At present, no scientist can describe the appearance of dark matter in detail, but we can imagine from other vibration situations that dark matter is nothing more than smaller and more common particles. The difficulty for scientists is that since there are so many tiny particles, why can't we observe their influence on us, such as accelerating or hindering our movement? This is the space ether theory that has not been established so far.
Perhaps the etheric ocean is the basis of endowing the physical world with various attributes, but without further confirmation, the dark matter composed of ether is still an unknown mystery.
Many articles in this issue have interpreted the essential composition of space, so please pay attention if you are interested!