“So, studying the Higgs boson with the highest possible precision is a must, and a future collider will do so.”Īs particles crash into each other at near the speed of light inside a supercollider, some of their combined kinetic energy is converted into mass, creating new particles such as the Higgs. We don't understand the family problem, as in why there are three families of particles,” said CERN Director-General Fabiola Gianotti. “We still don't understand the mass of the Higgs boson. The goodĪlthough the detection of the Higgs boson marked the completion of the Standard Model in some ways, there is still plenty of work to be done. With at least a 10-figure price tag, scientists and engineers are debating whether the endeavor will be worth the investment. However, the price of exploring the unknown often doesn’t come cheap. ![]() Then in 2013, the LHC's operator, known as CERN, also announced their plan for a new collider, named simply the Future Circular Collider. The planned Circular Electron Positron Collider will be 100 kilometers around, almost four times larger than the Large Hadron Collider, or LHC. In 2012, the Institute of High Energy Physics of the Chinese Academy of Sciences announced a plan to build the next great supercollider. And in science, the only way to confirm or disprove these hypotheses is to gather more data - data from better telescopes and microscopes and, perhaps, a brand-new, even bigger supercollider. Like the unchartered territories that medieval mapmakers filled with fantastic beasts, the frontiers of physics have been filled with a wealth of hypotheses for what may lurk in the darkness. It falls short in providing explanations for mysteries such as the existence of dark matter or dark energy, or why gravity is so different from other fundamental forces. The Higgs discovery was made possible by a giant machine in Europe, known as the Large Hadron Collider that uses a 27-kilometer ring of superconducting magnets to accelerate and then smash particles together at near the speed of light.īut the Standard Model is not the be-all and end-all of physics. This particle was the last missing puzzle piece of what physicists call the Standard Model - the most thoroughly tested set of physical laws that govern our universe. ![]() (Inside Science) - In 2012, particle physicists detected the long-sought-after Higgs boson for the first time.
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