Date: Tue, 19 Sep 1995 17:41:47 -0700 From: toad@ugcs.caltech.edu (Benjamin Lane) To: traveller@MPGN.COM Now, fusion power; this is a fun one - lots of semi-hard science here. TL-9; The first Tokakmaks using magnetic confinement. Power conversion is through heat engines (water, liquid sodium, CO2 or helium) Fuel is Deuterium-Tritium, or He-3. Tritium produced by neutron bombardment or lithium. Laser-Inertial fusion is still not useful except in Daedalus drives and fusion rockets. Jump drive powerplants use short-duration intense magnetic fields (HPG-driven) to boost fusion throughput to build up charge. These high fields allow MHD tube type power conversion as well as D-D fusion. see previous post for details. TL-10; Improved magnetic confinement - supplemented by gravitic confinement allow higher pressures and temps. D-D fusion standard. Heat engines still common; some thermoelectric conversion used. Advantages are no moving parts, higher efficiency. HEPlaR drives appear. These are NOT merely reheating of hydrogen. Instead, waste heat and radiation from the reactor is used to induce fusion in fuel. Gravitics allow non-toroidal confinement shape, which simplifies thrust production. Muon fusion possible for certain applications. TL-11; Essentially as above - evolutionary improvement, above all more thermoelectric conversion which allows smaller power plants. Jump drives take advantage of temporary high confinement pressures/temps to induce limited proton- proton chain fusion. TL-12; Contiued slow development. Advances in high field- strength superconductors allow MHD tube energy conversion in long-duration applications. A reactor now resembles a HEPlaR drive with an MHD tube attached at the exhaust - the high-velocity "exhaust" is charged and passed through a magnet, creating current. TL-13; Leap in capabilities due to new understanding and control of nuclear forces. Confinement shape can vary, spherical (radiation source) and cylindrical (MHD tube) common. Proton-proton chain standard. MHD type power conversion standard for most applications, including jump drive. TL-14; Perfection of Proton Chain fusion. Jump drives now use resonant oscillation induced charge-separation of plasma (sending positive charges down one tube, negative down another) to build up potential. TL-15; Triple-alpha fusion used. First standard P-P chain, then fusing three He-4 nuclei. Charge separation power conversion in all applications. Tl-16; Carbon catalysed fusion. CNO chain (carbon + p forms nitrogen. N + p forms oxygen. O + p reforms Carbon.