Observers moving faster than light in a vacuum would view our world differently. It would be vastly different than what we see every day. According to theorists from universities in Warsaw and Oxford, we should expect to see phenomena that happen spontaneously, without a deterministic cause.
A superluminal world would have to be characterized with three time dimensions and one spatial dimensions, and it would have to be described in a familiar language. The presence of such superluminal observers doesn't lead to anything logically inconsistent, and it's possible that superluminal objects actually exist.
Albert Einstein changed the way we see time and space. The concept of time and space, which are so far apart, began to be treated as a whole. The sign in some of the equations is what distinguishes time and space. A physicist from the University of Warsaw and the National University of Singapore.
Einstein assumed that Galileo's principle of relativity and the speed of light were correct. The first principle is important because it assumes that the laws of physics are the same in every system. Observers who are moving relative to each other at speeds less than the speed of light are typically treated this way. "Observers moving in relation to the described physical systems with speeds greater than the speed of light should not be exempt from it."
When we assume that the world can be seen from superluminal frames of reference, what happens? It is possible that the basic principles of quantum mechanics could be incorporated into the theory of relativity. This is a new hypothesis of a professor. Dragan are both professors. Two years ago, Artur Ekert presented for the first time in the article "Quantum principle of relativity" in the New Journal of physics.
The simplified case of both families of observers in a space-time consists of one spatial and one time dimensions. A group of 5 physicists presented their conclusions about the full four-dimensional spacetime in their latest publication in the journal Classical and QuantumGravity.
The concept of space-time is related to our physical reality, with three spatial dimensions and one timeDIMENSION. From the point of view of the superluminal observer, only one of the worlds has a spatial character.
Time dimensions are the other three dimensions. Mr. Dragan. The particleages independently in each of the three times." From our perspective, it looks like a simultaneous movement in all directions. Krzysztof Turzyski is an author.
As explained by a professor. According to the principle of the 18th century, every point reached by a wave becomes the source of a new wave. This principle was applied to all forms of matter, even though it only applied to light waves.
The authors of the publication show that the inclusion of superluminal observers in the description is necessary to create a new definition of velocity and kinematics. The authors of the paper say that the new definition of Einstein's postulate of constancy of the speed of light in vacuum is still valid. The idea of an extended special relativity does not seem extravagant.
What does the description of the world look like now? The world becomes nondeterministic, particles instead of one at a time, after taking into account superluminal solutions.
The field is the only quantity that can be used to describe the physical world. It used to be thought that the underlying quantum theory is fundamental and cannot be derived from anything else. The authors of the publication wrote that they showed that the justification of quantum theory can be generalized to 1 + 3 spacetime.
Particles seem to have special properties. Is it possible that it works the other way? Is it possible to detect particles that are normal for superluminal watchers?
"It's not easy," says the professor. The man is Krzysztof Turzyski. It is feasible in a large research team using the latest experimental techniques to discover a new fundamental particle. We hope to apply our results to better understand the phenomenon of symmetry breaking in the Standard Model, especially in the early universe.
The tachyonic field is the key to any symmetry breaking mechanism. It looks like superluminal phenomena may be involved in the mechanism.
There is more information about the Relativity of superluminal observers in 1+3 space time. 10.1088/1361-6382/acad60 is a book.
Journal information: New Journal of Physics
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