Scientists working on subatomic particles achieved results that could change all the facts assumed in physics. Accordingly, it was discovered that a subatomic particle known as the W boson could be heavier than previously thought.
Most of us learn in school that the smallest building block of matter is the atom; but in reality things are a little different than that. The atom, which also makes up the atom in the structure of matter, is much smaller than the atom that Marvel lovers may be familiar with from Ant-Man. ‘subatomic particles’ exists. These small particles, which are not yet fully understood, form the basis of the ‘Standard Model’, which is actually the most important model of all particle physics.
According to new research, W boson a subatomic particle called heavier than It looks like it might be possible. It is stated that this discovery could lead to a radical shake-up of the understanding of how physics works at the micro scale. In fact, some inconsistencies in the data presented by the Standard Model have been on the agenda of the scientific world for a long time, and this new research offers a ‘solution’ to the existing problem.
The laws of physics can be rewritten
Scientists from the US Fermi National Accelerator Laboratory, who have been working for 10 years to analyze the mass measurements of the W boson, a lesser-known “sister particle” of the Higgs boson, which plays a role in radioactive decay. groundbreaking they came up with a new finding. Accordingly, the scientists found that the W boson may be slightly heavier than physics theories have assumed so far.
Well what does it mean? In fact, it’s a model called the Standard Model, which is a fundamental theory of physics that explains how the world fits in at the microscale. conflict in terms of the rules of physics can be rewritten means. Because the W boson in question is used as one of the main components of this model. Naturally, this boson being heavier means that the calculations will have to be made all over again.
Physicist from Texas A&M University who is a member of the project David Toback In his statement on the subject, “It is now up to the theoretical physics community and other experiments to follow up and shed light on this mystery.” uses expressions and “If the difference between the experimental and the expected value is due to some kind of new particle or subatomic interaction, one of the possibilities is that in future experiments There’s a good chance there’s something that can be discovered.” he adds.
4.2 million observations of the W boson examined
On the other hand, although some critics state that questioning the rules of particle physics is an extremely audacious move and that more research is needed to confirm these results, the team behind the research did not rely on their results. they are pretty sure is recording. associated with it “The number of improvements and extra checks on our results is huge” The leader of the study from Duke University stated that Asutosh V. Kotwal, “We’ve taken into account advances in the theoretical and experimental understanding of the W boson’s interactions with other particles, as well as our improved understanding of our particle detector.” uses expressions.
Basing their calculations on measurements taken from Fermilab’s Tevatron collider between 1985 and 2011, the researchers say they analyzed this data for the next 10 years. The sum of the W boson candidate particles 4.2 million The researchers, who included the observation in the analysis, published their results in the journal Science.
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