FASTER THAN LIGHT SPEED: A NEW EXPERIMENT REVEALS 

According to the findings of the study, it is possible for things to travel faster than the speed of light without violating the laws of physics as we currently understand them. 

Are scienctists bending definitions again to please their atomists by keeping Einstien's flawed law of relativity? You be the judge. - One Social editor 

This year, for the very first time ever, scientists have been able to create the illusion that light, in the form of a photon particle, may flow both forwards and backwards through time. 

Scientists have developed a novel approach, which can be attributed to the use of two concepts from quantum physics. It has been achieved through the movement of atomic particles, and it is referred to as a "quantum time flip." 

The extension to Einstein's theory of special relativity was developed by a group of researchers hailing from the National University of Singapore and the University of Warsaw. Their goal was to illustrate how gravity influences spacetime. 

The new hypothesis consists of four intervals: three time intervals and one space interval. The implications of these new ideas on how we should think about the world are intriguing. 

The new model that was developed by the study team compares objects traveling faster than the speed of light to bubbles that form and then disappear in space. Because of these bubbles, the traveler has the possibility of seeing various timelines throughout their voyage. 

According to Science Alert, "Einstein's principle that we can't exceed the speed of light is preserved," despite the fact that for observers moving faster than it, the speed of light would still remain constant. This was previously recognized regarding observers traveling at a speed that is lower than the speed of light; nevertheless, this is now considered to be a principle for everyone. 

According to a physicist who works at the University of Warsaw named Krzysztof Turzyski, "the mere experimental discovery of a new fundamental particle is a feat worthy of the Nobel Prize and feasible in a large research team using the latest experimental techniques."

The general theory of relativity is essentially a description of how observations made by "superluminal" observers, or observers traveling faster than the speed of light, may look to other observers. 

Time and space are said to undergo transformations, according to the theory of special relativity, which postulates that these alterations take place when moving objects are observed. 

Einstein's theory of special relativity and quantum mechanics were originally thought to be distinct theories; nevertheless, if a theory of quantum gravity were to be developed, it would unite the two theories. "There is no fundamental reason why observers moving in relation to physical systems with speeds greater than the speed of light should not be subject to it," theorized Andrzej Dragan, a physicist at the University of Warsaw in Poland, speaking to Usa Discover News. 

In light of the theoretical, experiential, and observational facts, this revised definition of special relativity is presented because it offers a framework that is consistent for both objects that are close to superluminal and those that are further away. According to Dragan, "Einstein's postulate that the speed of light in a vacuum remains constant even for superluminal observers is maintained by this new definition." 

This new research, which has been published in the peer-reviewed journal Classical and Quantum Gravity, is a continuation of a previous effort that several of the scholars who contributed to this publication were responsible for leading.