The formation of a new atom through the fusion of two different atoms is called nuclear fusion. In stars, for example, different types of elements react under intense pressure. newly emerging elements, heat, light and radiation turns out.

Scientists spend a lot of time on nuclear energy, which they see as one of the ways to get energy. When nuclear fusion is performed in studies done so far, the power of fusion decreased over time. Last year, for the first time in history, scientists self-sustaining merger developed. The only problem is that they are not quite sure how to do the same thing again.

Nuclear Fusion Could Solve the Energy Crisis (If We Can)

Coming from the sun, the source of life on earth source of heat and light nuclear fusion. Since hydrogen atoms combine to form helium, it also radiates a lot of energy. Cosmic events, such as supernovae, also occur through nuclear fusion.

It is not possible to carry out these reactions, which can easily take place in space, on our planet. Created in artificial environments, heat and energy, even if the conditions necessary to initiate the reaction are provided, X-rays and heat conductors lost in cooling mechanisms like: That’s why scientists try to get to the ignition point, the point where fusion creates the energy and environment to continue the reaction on its own.

Could hold the key to clean energy

A study published on August 8, 2021 has revealed one of the most important discoveries in human history to date. Researchers at the Lawrence Livermore National Ignition Laboratory in California have found hydrogen isotopes called tritium and deuterium in a gold-plated circle of depleted uranium. from 192 lasers subjected to intense energy. Thus, for the first time, an inflammatory process was performed in a laboratory setting.

During 1 100 trillionths of a second, scientists are out of this merger. 10 quadrillion watts managed to generate electricity. Later, although the scientists tried the same experiment four more times, they were unable to produce the same level of energy.

Researchers have found that the reason for this situation lies in nuclear fusion studies. doing too much they show that he plays a very sensitive role. Therefore, it is not always possible to work with the same efficiency.