In the third run, the particles will be struck with an energy intensity of 13.6 TeV, which may help to better understand the properties of the Higgs boson and its interaction with the substance, and may also reveal clues to the dark matter.
A round of applause erupted at CERN’s Control Center on July 5 at 4:47 pm CEST as LHC large drone accelerator operators activated all subsystems and began recording unprecedented high energy collisions of 13.6 TeV, leading to a new era in physics. This is the third run of the accelerator after two upgrades, each time raising the energy level.
This achievement was made possible by operators around the clock since the LHC’s restart in April to ensure the smooth start of higher-intensity drone beam collisions and increased energy.
“After more than three years of upgrading and maintenance work, the LHC is now expected to operate for nearly four years as stated at a peak energy of 13.6 trillion electron volts (TeV), which provides greater accuracy and detection potential, increased collision rates, higher collision energy, reading and selection systems Upgraded data, new detector systems and computing infrastructure: All of these factors point to a promising physics season that will further expand the LHC’s already diversified physics program, ”the organization said in a statement. This will be the accelerator’s third run and it is expected to last almost four years.
“During the experiments, scientists will examine the character of the Higgs boson, discovered by the LHC ten years ago, with unprecedented accuracy and new channels. The progress made since then to determine its properties has allowed physicists to take great strides forward in understanding the universe. The heaviest element known, the top quark and other parameters, the Higgs boson mass may determine the vacuum stability of the universe. “
“Researchers will also study the properties of the material under extreme temperature and density conditions, and will look for candidates for dark matter and other new phenomena.”
Andreas Hooker, a spokesman for the Atlas Partnership, said: “We will measure the strengths of Higgs boson’s interactions with matter with unprecedented accuracy, and will advance our search for evidence of Higgs boson fading into dark matter particles, as well as searches for other Higgs bosons.”
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