Talk:Criticality (nuclear)
Spontaneous decay and the neutron scatterers
1. How about to add some refs? for ex.,
http://mitnse.com/2011/03/18/what-is-criticality/
http://www.ornl.gov/~webworks/cppr/y2001/pres/112885.pdf
2. I think, the role of the neutron scatterers should be discussed.
How about to surround the core with some boron, or, contrary, with some beryllium?
Can it be used to control the fission instead of the conventional control rods?
3. How about to trace the role of the spontaneous decay? for example, if the criticality is slightly below unity, but the stimulated reactions converts each spontaneous neutron to, say, a million of neutrons that get out. In such a condition, the core should show huge fluctuation in generation of energy. There is analogy in optics, it is called "amplified spontaneous emission".
Dmitrii Kouznetsov 15:42, 25 November 2012 (UTC)
- I'm not finished writing this article. Perhaps I should have started this on User subpage of mine then moved to a main article page. I plan to rewrite the "section" I just removed. I could write it in terms of reactivity, symbolized by δ or ρ, or in terms of effective neutron multiplication factor, symbolized by Keff. They are related quantities. I'll think about this when I have some time. Henry A. Padleckas 17:56, 26 November 2012 (UTC)
Reactivity and keff
Criticality in a given situation is specified by either one of two quantities, both of which are mathematically related such that physically one is specifying the same condition by using either of the two quantities. The two quantities are reactivity, often symbolized by ρ, and effective neutron multiplication factor, symbolized by k or keff. They are mathematically related as follows:
- ρ = (keff - 1) / keff
After pondering the matter for a while, I think I will have the Criticality (nuclear) article cover both of these quantities, instead of writing separate articles for each. Eventually (if that will ever happen) when this article is greatly expanded, the information on these two quantities can be moved to their own separate articles, Reactivity (nuclear) and Effective neutron multiplication factor for which a Definition page has been created - Effective neutron multiplication factor/Definition. Henry A. Padleckas 03:37, 27 November 2012 (UTC)
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