Plutonium

Overview

Plutonium is a radioactive, man-made element that serves as the primary fissile material in nuclear weapons and nuclear reactors. Created in nuclear reactors through neutron bombardment of uranium-238, plutonium-239 can sustain nuclear chain reactions with smaller critical masses than uranium-235.

Physical Properties

Plutonium exhibits unique characteristics:

• Atomic number: 94 (94 protons)
• Density: 19.8 g/cm³ (very dense metal)
• Melting point: 640°C (1,184°F)
• Appearance: Silvery metal that tarnishes to olive green
• Isotopes: Multiple isotopes, with Pu-239 most important for weapons

Production Methods

Plutonium is produced artificially through nuclear processes:

• Reactor production: Uranium-238 captures neutrons to become Pu-239
• Chemical separation: Plutonium extracted from irradiated uranium fuel
• Weapons-grade: Requires high concentration of Pu-239 isotope
• Reactor-grade: Contains higher percentages of other plutonium isotopes

Toxicity and Health Effects

Plutonium poses severe health risks:

• Alpha radiation: Emits alpha particles that damage tissue
• Inhalation hazard: Most dangerous when inhaled as particles
• Bone and liver: Accumulates in bones and liver tissue
• Cancer risk: Causes lung, bone, and liver cancers
• External safety: Alpha radiation cannot penetrate skin

Nuclear Weapons Applications

Plutonium enables compact nuclear weapons:

• Critical mass: Only 4-6 kg needed for weapons (vs. 15-20 kg uranium)
• Implosion design: Fat Man bomb used plutonium implosion
• Weapon efficiency: Higher yield per unit mass than uranium
• Proliferation concern: Easier to weaponize than uranium-235

Nuclear Power Applications

Plutonium has civilian nuclear uses:

• Breeder reactors: Create more fuel than they consume
• MOX fuel: Mixed oxide fuel combines plutonium with uranium
• Energy potential: Can provide thousands of years of energy
• Fuel recycling: Extracted from spent nuclear fuel

Environmental Impact

Plutonium contamination affects large areas:

• Hanford site: 54 million gallons of radioactive waste
• Rocky Flats: Contaminated soil around former weapons plant
• Marshall Islands: Fallout from nuclear testing
• Mayak facility: Severe contamination in Russia

Global Stockpiles

Worldwide plutonium inventories present security challenges:

• Total stocks: Over 500 tons of separated plutonium
• Weapons material: Enough for 100,000+ nuclear weapons
• Civilian stocks: Japan holds 47 tons for reactor programs
• Security concerns: Theft and terrorism risks

Relevance to Nuclear Weapons

Plutonium is crucial to nuclear weapons because:

• Lower critical mass enables smaller, more efficient weapons
• Produced in nuclear reactors, making it accessible to many nations
• Dual-use nature creates proliferation risks in civilian programs
• Long half-life (24,000 years) creates lasting security challenges

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Sources

Authoritative Sources:

• Lawrence Berkeley National Laboratory - Plutonium discovery and research history
• International Atomic Energy Agency - Plutonium safeguards and security
• Nuclear Threat Initiative - Plutonium proliferation risks and management
• U.S. Department of Energy - Plutonium production history and cleanup efforts
• World Nuclear Association - Plutonium in nuclear fuel cycles