Nucleosynthesis of low and intermediate mass stars: A study into the origin of the elements. Everything in our Solar System, including the Sun and all life on Earth, were created out of material forged long ago in fiery stellar furnaces. In the hot dense cores of long dead stars the material most vital to life was created. However, the stellar origin of many elements is unknown although we can make guesses, from observations of stars and by bringing together ideas from different scientific fiel ....Nucleosynthesis of low and intermediate mass stars: A study into the origin of the elements. Everything in our Solar System, including the Sun and all life on Earth, were created out of material forged long ago in fiery stellar furnaces. In the hot dense cores of long dead stars the material most vital to life was created. However, the stellar origin of many elements is unknown although we can make guesses, from observations of stars and by bringing together ideas from different scientific fields including astrophysics, nuclear physics and geochemistry. Using the latest theoretical techniques together with the most recent experimental data, it is possible to piece together the clues
to unravel the mystery of the origin of the elements.
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The origin and evolution of heavy elements in the early universe. Everything in our Solar System, including all life on Earth, was created long ago out of material forged inside fiery stellar furnaces. The latest theoretical simulations of element production in red giant stars reveals the processes that gave us our existence, as well as help us to understand the origin of the galaxy that we inhabit.
The origin of the elements heavier than iron. This research investigates the cosmic origin of the elements heavier than iron, as they are produced by nuclear reactions inside stars. The study of these elements in stars and meteorites will help us to understand the origin and history of the Solar System, of old stars and of stellar clusters and galaxies.