Starseed launcher
Encyclopedia
Starseed is a proposed method of launching interstellar nanoprobes at one-third light speed suggested by Forrest Bishop of the Institute of Atomic-Scale Engineering.
The launcher uses a 1,000 kilometer long thin small diameter hollow wire, and uses electrodes lining the hollow wire as an electrostatic accelerator tube, similar to K. Eric Drexler
's ideas. The launcher is designed to accelerate its probes to 1/3 the speed of light, about 100,000 kilometers per second, at something on the order of 100 million gravities of acceleration.
Keeping the launch tube straight enough to avoid the probe hitting the tube walls is a major challenge. The launcher would have to be set up in deep space, well away from any planets, to avoid gravitational tidal effects bending the tube too much.
The Starseed Probes are proposed to be extremely small (roughly one microgram) nanomachines and nanocomputers. The required launch energy per probe is low due to the low mass, and many nanoprobes would be launched in sequence and rendezvous in flight.
The launcher uses a 1,000 kilometer long thin small diameter hollow wire, and uses electrodes lining the hollow wire as an electrostatic accelerator tube, similar to K. Eric Drexler
K. Eric Drexler
Dr. Kim Eric Drexler is an American engineer best known for popularizing the potential of molecular nanotechnology , from the 1970s and 1980s.His 1991 doctoral thesis at MIT was revised and published as...
's ideas. The launcher is designed to accelerate its probes to 1/3 the speed of light, about 100,000 kilometers per second, at something on the order of 100 million gravities of acceleration.
Keeping the launch tube straight enough to avoid the probe hitting the tube walls is a major challenge. The launcher would have to be set up in deep space, well away from any planets, to avoid gravitational tidal effects bending the tube too much.
The Starseed Probes are proposed to be extremely small (roughly one microgram) nanomachines and nanocomputers. The required launch energy per probe is low due to the low mass, and many nanoprobes would be launched in sequence and rendezvous in flight.