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To uncover more cosmic secrets, The Large Hadron Collider will embark on a third run

The Large Hadron Collider

The Large Hadron Collider

The Higgs Boson particle was first seen when researchers at the European Center for Nuclear Research, or CERN, turned and crashed particles together close to the speed of light.

Ten years ago, scientists had the option to find the Higgs Boson particle and help make sense of the our universe utilizing the Large Hadron Collider. They did that by utilizing the world’s biggest and most remarkable atom smasher — the Large Hadron Collider. They repeated the experience in 2018, opening new bits of knowledge on protons. Since 1964, physicists theorized this particle existed, however it required almost 50 years to track down proof.

“This is a particle that has answered some questions for us and given many others,” Dr. Sarah Demers, a physics professor at Yale University, tells NPR.

Dr. François Englert and Dr. Peter Higgs

professor Francois Englert and Peter Ware Higgs pictured with their medal at the Nobel Prize Award ceremony in Stockholm, Sweden.

Now, with another host of questions, they intend to restart the particle accelerator this month to possibly better understand cosmic unknowns like dark matter. The proof of the Higgs Boson’s presence was a significant achievement in fundamental physics. And Dr. François Englert and Dr. Peter Higgs won a Nobel Prize in physics. Despite the scientific achievement, the work in understanding how the universe works is far from over.

Without the Higgs field, stars, planets, and life as far as we might be concerned today could not have possibly framed a 10th of a billionth of a second after the Big Bang.

“There has to be more out there because we can’t explain so many of the things that are around us.” said Demers, who is also at CERN working on the third run. “There’s something really big missing, and by really big, we’re talking about 96 percent of the universe really big.”

Fourth cycle

The Large Hadron Collider fourth cycle

Scientists guess that the third run will keep going for the following four years. And they have already started planning for the fourth cycle, which is set to begin in 2030.

CERN stated in a press release that “unlocking the solutions to these and other fascinating questions will not only help us understand the universe at the smallest scales. But may also help us understand some of the biggest mysteries of the universe as a whole, such as how it came to be the way it is and what its ultimate fate may be.”

The third run is supposed to happen for the following four years, and researchers are now beginning to deal with Run 4, which begin in 2030. What Demers is referring to is dark matter, which is undetectable matter accepted to exist from observations of the universe, and dark energy. Which fuels the accelerating extension of the universe. She trusts that the forthcoming run will produce insight into the tricky yet overpowering majority of our universe.

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