For decades, scientists have tried to make a seemingly impossible scientific breakthrough: nuclear fusion can generate more energy gains than losses – something that could revolutionize the way we generate energy on planet Earth. Happily, Last Tuesday (13), it was confirmed that researchers at the National Ignition Facility (NIF) in California had succeeded in producing more fusion energy than was used to cause the reaction.🇧🇷

On December 5, 2022, scientists achieved this feat by concentrating 2.05 megajoules of laser light in a mini Fusion Fuel Capsule, 3.15 megajoules triggers a burst of energy🇧🇷 This news is like a beacon of hope for thousands of scientists who have devoted their lives to nuclear fusion research, showing that it is possible to produce more energy than is spent in a tiny fraction of a second.

For decades, researchers around the world have been trying to understand how to improve nuclear fusion to produce copious amounts of clean energy. In this way, technology can help put an end to fossil fuels, reduce climate problems and offer greater comfort to people.

“The quest for fusion ignition in the lab is one of the most important scientific challenges humanity has ever faced, and achieving it is a triumph for science, engineering and, above all, humans,” said Livermore, Director of Lawrence National Laboratory. Dr. Kim Budil, in an official note.

very quiet these days

Although it is a very important achievement for humanity, it is necessary to explain that fusion is carried out on a very small scale, even if the energy of 3.15 megajoules is equivalent to the power of three sticks of dynamite. So discovery doesn’t mean we can generate energy on a large scale, it’s scientific research that’s not for any commercial purpose.

The first nuclear fusion represents hope for this to happen in the future, but for now, NIF has conducted miniature tests to collect research data. The purpose of the study is to provide information to make sure the US nuclear weapons arsenal is safe.

According to experts, it produces clean energy because it does not produce greenhouse gases or radioactive waste as a result of nuclear fusion. However, the reaction only takes place when some materials are heated to temperatures above 100 million degrees. The NIF experiment used a small diamond capsule with a hydrogen isotope, heated by lasers to around 150 million degrees Celsius.


Source: Tec Mundo

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I am Bret Jackson, a professional journalist and author for Gadget Onus, where I specialize in writing about the gaming industry. With over 6 years of experience in my field, I have built up an extensive portfolio that ranges from reviews to interviews with top figures within the industry. My work has been featured on various news sites, providing readers with insightful analysis regarding the current state of gaming culture.

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