deuterium-tritium fusion
Deuterium-tritium fusion is a nuclear reaction where two heavy isotopes of hydrogen, deuterium and tritium, combine to form helium and release a significant amount of energy. Deuterium has one neutron and one proton, while tritium has two neutrons and one proton. This fusion process occurs at extremely high temperatures, like those found in stars, enabling hydrogen atoms to overcome their natural repulsion. The energy released during this reaction is the same source that powers the sun and is considered a potential source of clean energy on Earth, as it produces minimal radioactive waste.
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Deuterium-tritium fusion is a nuclear reaction where two heavy isotopes of hydrogen, deuterium and tritium, combine to form helium and release a large amount of energy. Deuterium is found in water, while tritium is radioactive and can be produced in nuclear reactors. This fusion process occurs under extreme conditions, like in the sun, where high temperatures and pressures allow the nuclei to overcome their repulsion and fuse. Scientists aim to harness this reaction for clean, sustainable energy on Earth, as it produces minimal radioactive waste compared to conventional nuclear fission.