Magic number (physics)
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- For other uses of the term, see magic number
In nuclear physics, a magic number is a number of nucleons such that they are arranged into complete shells within the atomic nucleus. The seven known magic numbers as of 2005 are:
Atomic nuclei consisting of such a magic number of nucleons have a lower average binding energy per nucleon than one would expect based upon predictions such as the Semi-empirical mass formula and are hence more stable against nuclear decay. Nuclei which have both neutron number and proton (atomic) number equal to one of the magic numbers are called doubly magic, and are especially stable against decay. For example, Lead 208 is especially stable as it has both 82 protons and 126 neutrons.
Derivation
Magic numbers are typically obtained by empirical studies, however if the form of the nuclear potential is known then the Schrödinger equation can be solved for the motion of nucleons and energy levels determined. Nuclear shells are said to occur when the separation between energy levels is significantly greater than the local mean separation.
Magical numbers are the numbers of nucleons at which a shell is filled. For instance the magic number 8 occurs when 1s1/2, 1p3/2, 1p1/2 energy levels are filled as there is a large energy gap between the 1p1/2 and the next highest 1d5/2 energy levels.
See also
- Isotopes
- Maria Göppert-Mayer
- Weizsäcker formula
- Nuclear shell model
- Superatom
- superdeformation
- island of stability
External links
eo:Magia nombro (fiziko) it:Numero magico (fisica) ja:魔法数 sl:Magično število (fizika) zh:幻数