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Name, symbol Plutonium-240,240Pu
Neutrons 146
Protons 94
Nuclide data
Natural abundance 0 (Artificial)
Half-life 6563 years
Decay mode Decay energy
Alpha decay 5.255 MeV

Plutonium-240 (Pu-240) is an isotope of the metal plutonium formed when plutonium-239 captures a neutron. About 62% to 73% of the time when Pu-239 captures a neutron it undergoes fission; the rest of the time it forms Pu-240. The longer a nuclear fuel element remains in a nuclear reactor the greater the relative percentage of Pu-240 in the fuel becomes. For weapons use, the fuel needs to be as low in Pu-240 as possible, usually less than 7% of the total plutonium (this is because Pu-240 sometimes undergoes spontaneous fission, causing the weapon to detonate prematurely), but this is achieved by reprocessing the fuel after just 90 days of use. Such rapid fuel cycles are highly impractical for civilian power reactors and are normally only carried out with dedicated weapons plutonium production reactors. Plutonium from spent civilian power reactor fuel typically has under 70% Pu-239 and around 26% Pu-240, the rest being made up of other plutonium isotopes, making it extremely difficult but not technically impossible to use it for manufacturing nuclear weapons.[citation needed]

240Pu has only about 13 as large a neutron absorption cross section as 239Pu, and nearly always becomes plutonium-241 rather than fissioning. In general, isotopes of odd mass number are both more likely to absorb a neutron, and more likely to fission on neutron absorption, than isotopes of even mass number. Thus, even mass isotopes tend to accumulate, especially in a thermal reactor.

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Plutonium-240 is an
isotope of plutonium
Decay product of:
plutonium-239 (neutron capture)
curium-244 (α)
neptunium-240 (β-)
Decay chain
of plutonium-240
Decays to:
uranium-236 (α)