U235 Criticality: Neutron Capture and Alpha Emission

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SUMMARY

U-235 reaches criticality through neutron capture, despite its natural decay process being alpha emission. The original U-235 bomb, known as "Little Boy," utilized a neutron initiator to enhance fission efficiency, although it could detonate without it, resulting in a lower yield. Spontaneous fission events in U-235 can provide initial neutrons necessary for starting the chain reaction, but their timing is unpredictable. The design of the bomb, particularly the implosion method, mitigates the risks associated with spontaneous fission occurring at inopportune moments.

PREREQUISITES
  • Understanding of nuclear fission and criticality concepts
  • Familiarity with neutron sources and their role in nuclear reactions
  • Knowledge of bomb design principles, specifically implosion and gun-type designs
  • Basic grasp of U-235 decay processes, including spontaneous fission and alpha decay
NEXT STEPS
  • Research the mechanics of neutron capture in nuclear reactions
  • Study the design and function of neutron initiators in nuclear weapons
  • Explore the implications of spontaneous fission in U-235 and its impact on nuclear yield
  • Investigate the differences between implosion and gun-type nuclear bomb designs
USEFUL FOR

Nuclear physicists, military strategists, and anyone involved in nuclear engineering or weapon design will benefit from this discussion.

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TL;DR
U235 is an Alpha Emitter, so how can it reach Criticality.
How does U235 reach criticality via neutron capture when its natural decay process is via alpha emission. I know that U235 will reach criticality in a suitably shaped container after a specific concentration has been reached. In addition, I've read that the original U235 bomb (little boy) was furnished with a neutron initiator but only so as to increase the fission efficiency. According to the text I've read, the bomb would have gone off without the neutron initiator, but with a lesser yield. So, how are the required neutrons generated in either case? What am I missing? Thanks in advance.
 
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The alpha decay doesn't matter.

U-235 can decay via spontaneous fission, providing an initial neutron to start the chain reaction. You can't control the time of that, however. If you get a spontaneous fission event too early or too late your yield is much lower, and if you don't get spontaneous fission while the core is critical then you don't get a nuclear explosion at all. A separate neutron source can inject neutrons at the time of maximal criticality, and you are just left with the risk that spontaneous fission starts the chain reaction too early. The implosion design compresses the material faster which reduces this risk. A gun-type plutonium bomb wouldn't be practical because plutonium has too many spontaneous fission decays.
 
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