Uranium-232
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General | |
---|---|
Symbol | 232U |
Names | uranium-232, 232U, U-232, U-232 |
Protons (Z) | 92 |
Neutrons (N) | 140 |
Nuclide data | |
Half-life (t1/2) | 68.9 years |
Parent isotopes | 236Pu (α) 232Np (β+) 232Pa (β−) |
Decay products | 228Th |
Isotopes of uranium Complete table of nuclides |
Uranium-232 (232
92U
, 232
U
, U-232) is an isotope of uranium. It has a half-life of 68.9 years and is a side product in the thorium cycle. It has been cited as an obstacle to nuclear proliferation using 233U as the fissile material, because the intense gamma radiation emitted by 208Tl (a daughter of 232U, produced relatively quickly) makes the 233U contaminated with it more difficult to handle.
Production of 233U (through the neutron irradiation of 232Th) invariably produces small amounts of 232U as an impurity, because of parasitic (n,2n) reactions on uranium-233 itself, or on protactinium-233, or on thorium-232:
- 232Th (n,γ) 233Th (β−) 233Pa (β−) 233U (n,2n) 232U
- 232Th (n,γ) 233Th (β−) 233Pa (n,2n) 232Pa (β−) 232U
- 232Th (n,2n) 231Th (β−) 231Pa (n,γ) 232Pa (β−) 232U
Another channel involves neutron capture reaction on small amounts of thorium-230, which is a tiny fraction of natural thorium present due to the decay of uranium-238:
- 230Th (n,γ) 231Th (β−) 231Pa (n,γ) 232Pa (β−) 232U
The decay chain of 232U quickly yields strong gamma radiation emitters:[1]
- 232U (α, 68.9 years)
- 228Th (α, 1.9 year)
- 224Ra (α, 3.6 day, 0.24 MeV) (from this point onwards, the decay chain is identical to that of 232Th; thorium-232 is nevertheless much less dangerous because its extremely long half-life of about 14 billion years means that not as much of its dangerous daughters builds up)
- 220Rn (α, 55 s, 0.54 MeV)
- 216Po (α, 0.15 s)
- 212Pb (β−, 10.64 h)
- 212Bi (α, 61 m, 0.78 MeV)
- 208Tl (β−, 3 m, 2.6 MeV) (35.94% branching ratio)
- 208Pb (stable)
This makes manual handling in a glove box with only light shielding (as commonly done with plutonium) too hazardous, (except possibly in a short period immediately following chemical separation of the uranium from thorium-228, radium-224, radon-220, and polonium-216) and instead requiring remote manipulation for fuel fabrication.
Unusually for an isotope with even mass number, 232U has a significant neutron absorption cross section for fission (thermal neutrons 75 barns (b), resonance integral 380 b) as well as for neutron capture (thermal 73 b, resonance integral 280 b).
References
- ^ Griffin, H. C. Natural Radioactive Decay Chains, Chapter 13 of Handbook of Nuclear Chemistry, Second Edition, Springer 2011, ISBN 978-1-4419-0719-6