![]() ![]() The capture-to-fission ratio is smaller than the other two major fissile fuels uranium-235 and plutonium-239 it is also lower than that of short-lived plutonium-241, but bested by very difficult-to-produce neptunium-236. ![]() Uranium-233 usually fissions on neutron absorption but sometimes retains the neutron, becoming uranium-234. Protactinium-233 has a half-life of 27 days and beta decays into uranium-233 some proposed molten salt reactor designs attempt to physically isolate the protactinium from further neutron capture before beta decay can occur. Thorium-233 decays into protactinium-233 through beta decay. When thorium-232 absorbs a neutron, it becomes thorium-233, which has a half-life of only 22 minutes. Uranium-233 is produced by the neutron irradiation of thorium-232. It has a half-life of around 160,000 years. It has been used successfully in experimental nuclear reactors and has been proposed for much wider use as a nuclear fuel. It was occasionally tested but never deployed in nuclear weapons and has not been used commercially as a nuclear fuel. Uranium-233 was investigated for use in nuclear weapons and as a reactor fuel. Uranium-233 is a fissile isotope of uranium that is bred from thorium-232 as part of the thorium fuel cycle.
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