As we all know, both nuclear fission and nuclear fusion can produce very powerful energy. The main change of nuclear fission is formed by splitting a nucleus into multiple atoms, just as the energy of nuclear power plants is known to man as nuclear fission reaction. The energy brought by nuclear fission reaction is already huge, but there is still a certain gap compared with nuclear fusion. The change process of nuclear fusion is just the opposite of nuclear fission. It is called nuclear fusion because many nuclei combine into one nucleus. There are many elements in the universe. According to the current technical means of human beings, the control of nuclear fusion is very difficult, and the huge energy it carries cannot be controlled independently.
1. At present, all countries in the world want to successfully conquer nuclear fusion technology. If this technology is successful, it will cause quite a stir in the world. In fact, in 32 years, an Australian scientist did a similar experiment. The experimental results are obvious, and there is no substantial progress. He had to give up experiments related to nuclear fusion. Neutron capture In short, people can regard the nucleus as a gourmet. When there is neutron capture in the environment, it is easy to eat neutrons sent to the door. If the neutron density in the environment is high, the nucleus will begin to overeat, and then indigestion will occur.
second, when all the dust settles, elements heavier than iron can appear in the universe in large quantities. Nuclear fusion technology is of great value and significance to human beings. People need to explore more mysteries of nuclear fusion technology through the continuous improvement and development of scientific and technological strength. Around 193s, BIGBANG's theory began to spread gradually in academic circles, but it was not recognized by many scientists.
Third, a group of particle physicists later joined the research to improve the Big Bang theory. At that time, scientists found that in the early days of the Big Bang, space was full of energy, quarks and neutrinos. Later, with the gradual decrease of temperature, a pair of high-energy photons collided to produce a pair of positive and negative matter particles, such as electrons and their antiparticle positrons.