Nuclear decay and fusion dynamics constitute central pillars in modern nuclear physics, with implications ranging from energy production and astrophysical phenomena to the synthesis of novel elements.

By dropping a nuclear reactor 1.6 kilometers (1 mile) underground, Deep Fission aims to use the weight of a billion tons of ...

Outdone only by nuclear fusion, the process of nuclear fission releases enormous amounts of energy. The ‘spicy rocks’ that are at the core of both natural and artificial fission reactors are generally ...

Physicists in the U.S. have overcome two major hurdles in fusion power generation. Their discovery increases the stability of fusion reactions and brings us one step closer to making commercial fusion ...

China's Experimental Advanced Superconducting Tokamak achieved a sustained temperature of 100 million degrees Celsius, marking a significant milestone in nuclear fusion research. The potential of ...

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Physicists at The University of Texas at Austin have designed a new system that, when fully developed, would use fusion to eliminate most of the transuranic waste produced by nuclear power plants. The ...

During the World Climate Action Summit of the 28 th Conference of the Parties to the U.N. Framework Convention on Climate Change going on now in Dubai, UAE—commonly known as “COP28”—a number of ...

Commonwealth Fusion Systems faces a litany of challenges, from complex physics and difficult engineering to building a supply ...