| 1. | The created alloy can undergo neutron irradiation to produce transuranic nuclides.
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| 2. | Uranium-233 is produced by the neutron irradiation of thorium-232.
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| 3. | Polonium-210 was produced by neutron irradiation of bismuth.
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| 4. | Glidcop is resistant to degradation by neutron irradiation.
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| 5. | Pure plutonium-238 is prepared by reprocessing, or by the neutron irradiation of americium in a reactor.
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| 6. | However, in an H-bomb, it is usually created " in situ " by neutron irradiation of lithium-6.
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| 7. | Instead, actinium is prepared, in milligram amounts, by the neutron irradiation of 226 in a nuclear reactor.
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| 8. | Since then, most neptunium has been and still is produced by neutron irradiation of uranium in nuclear reactors.
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| 9. | Instead, the element is prepared, in milligram amounts, by the neutron irradiation of 226 in a nuclear reactor.
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| 10. | Prolonged neutron irradiation also produces a long-lived isotope 254 Es ( t 1 / 2 = 275.5 days ).
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