Following a major experiment carried out at the Large Hadron Collider (LHC) at the European Organization for Nuclear Research (CERN) in 2012, a team of scientists succeeded in detecting the Higgs boson for the first time in the history of science. In a new study published in the scientific journal Physical Review Letters, Researchers claim to have made the most accurate measurement of the Higgs boson to date.
Physicists were able to perform the calculation following a detailed analysis of the proton collisions produced by the LHC, providing the most accurate mass measurement of the boson since the last papers. According to many scientists, the ‘God particle’ can be considered one of the most important particles for the Standard Model of Physics..
“This corresponds to an accuracy of 0.09% achieved in this fundamental parameter of the Standard Model of Particle Physics,” the study explains.
CERN first announced About the most accurate measurement ever recorded in July 2023, when it determined the best mass measurement of the Higgs boson. Using data from an experiment that lasted about four years, scientists observed some of the Higgs in more detail; Despite this, approximately 9 million boson particles were ‘produced’ in the tests.
“Its value determines the strength of the Higgs boson’s interactions with itself as well as with other fundamental particles. Accurate knowledge of this crucial parameter is essential for accurate theoretical calculations, allowing physicists to compare measurements of the properties of the particle. CERN has identified the Higgs boson as part of the Standard Model explains with his predictions.
More accurate measurement of the Higgs boson
The work is part of observations made by A Toroidal LHC ApparatuS (ATLAS), one of the detectors available at the LHC to calculate the measurements. As the scientists explain, such an ambitious measurement could help science better understand their interactions with other particles.
It is important to highlight Although there are still some inconsistencies in the calculations, the measurements further improve the understanding of the ‘God particle’.. This way, physicists can produce more tests against the Standard Model and perhaps find more answers about particle physics.
“This extremely precise measurement is the result of the ATLAS collaboration’s tireless investment in a better understanding of our data. Powerful reconstruction algorithms combined with precise calibrations are the decisive components of precise measurements. The new measurement of the mass of the Higgs boson is an increasingly important feature of this critical new sector of particle physics,” said ATLAS spokesman Andreas Hoecker. “It contributes to a more detailed mapping,” he said.
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Source: Tec Mundo

I’m Blaine Morgan, an experienced journalist and writer with over 8 years of experience in the tech industry. My expertise lies in writing about technology news and trends, covering everything from cutting-edge gadgets to emerging software developments. I’ve written for several leading publications including Gadget Onus where I am an author.