Difference between revisions of "X-ray Worldwide facilities"

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[https://wiki.iac.isu.edu/index.php/RS go back]
 
[https://wiki.iac.isu.edu/index.php/RS go back]
  
==[http://en.wikipedia.org/wiki/Nuclear_fusion Nuclear_fusion ]==
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== Nuclear_fusion  [http://en.wikipedia.org/wiki/Nuclear_fusion]==
  
===[http://en.wikipedia.org/wiki/Magnetic_confinement_fusion Magnetic_confinement_fusion]===
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=== Magnetic_confinement_fusion[http://en.wikipedia.org/wiki/Magnetic_confinement_fusion] ===
  
===[http://en.wikipedia.org/wiki/Inertial_confinement_fusion Inertial_confinement_fusion (ICF)]===
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=== Inertial_confinement_fusion (ICF) [http://en.wikipedia.org/wiki/Inertial_confinement_fusion]===
  
 
[[File:740px-Inertial confinement fusion.svg.png]]
 
[[File:740px-Inertial confinement fusion.svg.png]]

Revision as of 02:44, 8 February 2013

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Nuclear_fusion [1]

Magnetic_confinement_fusion[2]

Inertial_confinement_fusion (ICF) [3]

740px-Inertial confinement fusion.svg.png

Schematic of the stages of inertial confinement fusion using lasers. The blue arrows represent radiation; orange is blowoff; purple is inwardly transported thermal energy.

  1. Laser beams or laser-produced X-rays rapidly heat the surface of the fusion target, forming a surrounding plasma envelope.
  2. Fuel is compressed by the rocket-like blowoff of the hot surface material.
  3. During the final part of the capsule implosion, the fuel core reaches 20 times the density of lead and ignites at 100,000,000 ˚C.
  4. Thermonuclear burn spreads rapidly through the compressed fuel, yielding many times the input energy.


Worldwide Installations able to produce ICF


Worldwide X/Z-Pinch Installation

  • ANGARA-5-1 (Russia) [4]
    • electric pulse: 4 MA, 90 ns, energy 800 kJ, power 12 TW
    • X-ray: 100 kJ/pulse
    • neutron flux: ~3x10^12 neutrons/pulse.
  • MAGPIE, Imperial College, London
    • 1.4 MA, 240 ns
  • SATURN
  • GEPOPU, Imperial College, London
    • 180 kA, 120 ns