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The Basics - Level 2. The fission process Nucleus of U-235 or Pu-329 captures a neutron - U-236, Pu-240 nucleus formed. U-236, Pu-240 very unstable, rapidly.

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Presentation on theme: "The Basics - Level 2. The fission process Nucleus of U-235 or Pu-329 captures a neutron - U-236, Pu-240 nucleus formed. U-236, Pu-240 very unstable, rapidly."— Presentation transcript:

1 The Basics - Level 2

2 The fission process Nucleus of U-235 or Pu-329 captures a neutron - U-236, Pu-240 nucleus formed. U-236, Pu-240 very unstable, rapidly split into two (fission). Neutrons and a large burst of energy are emitted. –Complete fissioning of 1 gram of U-235 releases 23,000 kilowatt-hours of heat.

3 Critical mass Each nucleus undergoing fission must produce a neutron that splits another nucleus. Critical mass - the minimum mass of fissile material that can sustain a nuclear fission chain reaction. Sphere is optimum shape.

4 Nuclear explosions If critical mass is exceeded more neutrons are produced with each successive generation of fission. Nuclear explosions occur at super- critical masses, when the number of neutrons increases rapidly and uncontrollably.

5 Nuclear explosions Basic weapons contain fissile material less than critical mass. On detonation, density is increased to super-critical - a process referred to as "assembly". Within half a millionth of a second: –Temperatures - hundreds of millions degrees centigrade, and pressures - millions of atmospheres, build up.

6 Fusion Isotopes of hydrogen - deuterium and tritium. Extremely high temperatures required for reaction to occur. Require a fission bomb to provide energy to initiate reaction. Used mainly to ‘boost’ fission bombs - increase fission rate by providing more high energy neutrons.

7 Detonation techniques Gun technique –Only used with HEU. –Mass of sub-critical HEU fired at another - sum of two masses supercritical. –Simple technique. –Long assembly time. –Hiroshima bomb.

8 Detonation techniques Implosion technique –1/10 the assembly time of the gun technique. –HEU or plutonium can be used. –Fissile core surrounded by conventional high explosives.

9 Detonation techniques Implosion technique –Explosives detonate and uniformly compress the core and increase its density, making it super-critical. –Neutrons also fired into fissile material to encourage fission chain reaction.

10 Main components of nuclear weapons High quality, high purity conventional high explosives and reliable detonators. Electronic circuits. A tamper and neutron reflector. A core of fissile material. A neutron source.

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