- Stellar nucleosynthesis
Stellar nucleosynthesis is the collective term for the nuclear reactions taking place in
star s to build the nuclei of the heavier elements. (For other such processes, seenucleosynthesis .)The processes involved began to be understood early in the twentieth century, when it was first realized that the
energy released from nuclear reactions accounted for the longevity of theSun as a source ofheat andlight . The prime energy producer in the sun is the fusion ofhydrogen tohelium , which occurs at a minimum temperature of 3 millionkelvin s.History
In 1920,
Arthur Eddington , on the basis of the precise measurements of atoms by F.W. Aston, was the first to suggest that stars obtained their energy fromnuclear fusion ofhydrogen to formhelium .In 1928,George Gamow derived what is now called theGamow factor , a quantum-mechanical formula that gave the probability of bringing two nuclei sufficiently close for thestrong nuclear force to overcome theCoulomb barrier .The Gamow factor was used in the decade that followed by Atkinson and Houtermans and later by Gamow himself and Teller to derive the rate at which nuclear reactions would proceed at the high temperatures believed to exist in stellar interiors.In 1939, in a paper entitled "Energy Production in Stars",
Hans Bethe analyzed the different possibilities for reactions by which hydrogen is fused into helium. He selected two processes that he believed to be the sources of energy in stars. The first one, theproton-proton chain , is the dominant energy source in stars with masses up to about the mass of the Sun. The second process, the carbon-nitrogen-oxygen cycle, which was also considered byCarl Friedrich von Weizsäcker in 1938, is most important in more massive stars. These works concerned the energy generation capable of keeping stars hot. They did not address the creation of heavier nuclei, however. That theory was begun byFred Hoyle in 1946 with his argument that a collection of very hot nuclei would assemble intoiron . [cite journal | title=The synthesis of the elements from hydrogen | author = F. Hoyle | journal =Monthly Notices of the Royal Astronomical Society | volume = 106 | pages = 343–383 | year=1946 | url=http://adsabs.harvard.edu/abs/1946MNRAS.106..343H] Hoyle followed that in 1954 with a large paper outlining how advanced fusion stages within stars would synthesize elements between carbon and iron in mass.Quickly, many important omissions to Hoyle's theory were added, beginning with the publication of a celebrated review paper in 1957 by Burbidge, Burbidge, Fowler and Hoyle (commonly referred to as the
B²FH paper). [cite journal
title= Synthesis of the Elements in Stars
author= E. M. Burbidge, G. R. Burbidge, W. A. Fowler, F. Hoyle
journal= Reviews of Modern Physics
volume= 29
issue= 4
pages= 547–650
year= 1957
doi= 10.1103/RevModPhys.29.547] This latter work collected and refined earlier researches into a heavily cited picture that gave promise of accounting for the observed relative abundances of the elements. Significant improvements were created by A. G. W. Cameron and by Donald D. Clayton. Cameron presented his own independent approach (following Hoyle) of nucleosynthesis. He introduced computers into time-dependent calculations of evolution of nuclear systems. Clayton calculated the first time-dependent models of theS-process , theR-process , the burning of silicon into iron-group elements, and discovered radiogenic chronologies for determining the age of the elements. The entire research field expanded rapidly in the 1970s.Key reactions
[
red giant showing nucleosynthesis and elements formed] The most important reactions in stellar nucleosynthesis:
*Hydrogen burning:
** Theproton-proton chain
** The carbon-nitrogen-oxygen cycle
*Helium burning:
** Thetriple-alpha process
** Thealpha process
* Burning of heavier elements:
**Carbon burning process
**Neon burning process
**Oxygen burning process
**Silicon burning process
* Production of elements heavier thaniron :
** Neutron capture:
*** TheR-process
*** TheS-process
** Proton capture:
*** TheRp-process
** Photo-disintegration:
*** TheP-process References
* (subscription needed)
* (subscription needed)
*
*
* Alak K. Ray (2004) Stars as thermonuclear reactors: their fuels and ashes [http://arxiv.org/abs/astro-ph/0405568 (arxiv.org article)]
*
*
*
External links
* [http://nobelprize.org/physics/articles/fusion/index.html How the Sun Shines] by
John N. Bahcall
* [http://helios.gsfc.nasa.gov/nucleo.html Nucleosynthesis] inNASA 's Cosmicopia
Wikimedia Foundation. 2010.
