the formation of new atomic nuclei by nuclear reactions, thought to occur in the interiors of stars and in the early stages of development of the universe.
nucleosynthesis
British
/ ˌnjuːklɪəʊˈsɪnθɪsɪs /
noun
astronomy the formation of heavier elements from lighter elements by nuclear fusion in stars
The process by which heavier chemical elements are synthesized in the interiors of stars from hydrogen nuclei and other previously synthesized elements. Precisely which elements are involved in nucleosynthesis depends on the age and mass of the star. The most prevalent reaction in smaller stars like our Sun is the fusion of hydrogen into helium by the proton-proton chain; in more massive stars this fusion occurs via the carbon cycle. When a star is burning hydrogen in its core, it is a main-sequence star. In older stars such as the red giants, nucleosynthesis involves the burning of heavier elements created by earlier fusion; for example, helium may burn via the triple alpha process. More massive stars—over eight solar masses—also fuse carbon into neon and magnesium, oxygen into silicon and sulfur, and silicon into iron. The nucleosynthesis of iron is the precursor to the transition into the supernova phase.
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He said the key to charting the known universe’s path through time is in untangling a complex process known as stellar nucleosynthesis, and then deciphering the subatomic-level reactions inside that process.
Hoyle's work on stellar nucleosynthesis culminated in a 1957 paper, written with Fowler and Geoffrey and Margaret Burbidge, that remains a milestone in modern astrophysics.
