We present a new revision of nuclear fusion reaction cycles, whereby a solid room temperature lithium-6 deuteride (6LiD) is burnt with neutrons beams. New calculations of the time evolution of a network of differential equations for the abundancies of various nuclear species are presented. Data on nuclear cross-sections and non-thermal reaction rates are used to forecast the full time evolution of the most relevant thermonuclear reactions. Two cycles are considered: the Jetter n+6Li and Post cycles p+6Li. According to our calculations, there are great expectations for energy extraction in devices not based on plasma confinement, but rather on controlled nuclear burning into final products (mainly alpha particles).
Reviving nuclear fusion reaction cycles in solido
Fortunato, Lorenzo
2025
Abstract
We present a new revision of nuclear fusion reaction cycles, whereby a solid room temperature lithium-6 deuteride (6LiD) is burnt with neutrons beams. New calculations of the time evolution of a network of differential equations for the abundancies of various nuclear species are presented. Data on nuclear cross-sections and non-thermal reaction rates are used to forecast the full time evolution of the most relevant thermonuclear reactions. Two cycles are considered: the Jetter n+6Li and Post cycles p+6Li. According to our calculations, there are great expectations for energy extraction in devices not based on plasma confinement, but rather on controlled nuclear burning into final products (mainly alpha particles).
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