From: Shawn A Fisher Date: Wed, 29 Jul 1998 20:00:02 -0500 HYPLIC Thrusters (HYPerspace/Laser Interference Converter) TL8 (Description by John Fosgett) HYPLIC thrusters are a spinoff of fusion and cold fusion research which also produced the first FTL drive system. HYPLIC drives operate by establishing a containment bubble of hyperspace and then attempting to ignite a thermal fusion reaction within this altered dimensional space. The resulting interference waves between the lasers and hyperspace waves within the containment medium cause the fusion fuel to spontaneously disintegrate as it transitions to an extremely excited energy state. The resulting byproducts are extremely short lived and localized energy wavefronts which defy all known mechanisms of control and travel at right angles to the original interference waves. Overall, the HYPLIC drive is capable of directly converting mass into energy with about 20% efficiency in most design models. While the HYPLIC drive exhibits phenomenal performance, it is not without its drawbacks and limitations. Use of the HYPLIC in the presence of a standard atmosphere has proved fruitless, and doing anything useful with the energy ouputs other than to provide the original thrust has also proven impossible. The exhaust plume interacts catastrophically with any matter within a few meters of the drive. These reactions generate substantial hyperspace compresion waves which feed back into the device and cause the drives containment bubble to collapse (thus ending the reaction). On the bright side these energy fronts undergo a complete phase shift and slip back into hyperspace after travelling a short distance (rendering the exhaust harmless). Due to its unique nature, HYPLIC drives can be built in any size. Although the exhaust cannot be controlled (and thus vectored) it is possible to physically point the drive in any desired direction to simulate a vectored thrust drive. HYPLIC Drives mass 0.015 lbs per lb thrust. Cost is $50*thrust. Consume 0.015kW power per lb thrust for the ignition lasers and require 0.001 gallons of cryogenic hydrogen per hour per lb of thrust. They are 50lbs/cf.