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Mass-driver : ウィキペディア英語版
Mass driver

A mass driver or electromagnetic catapult is a proposed method of non-rocket spacelaunch which would use a linear motor to accelerate and catapult payloads up to high speeds. All existing and contemplated mass drivers use coils of wire energized by electricity to make electromagnets. Sequential firing of a row of electromagnets accelerates the payload along a path. After leaving the path, the payload continues to move due to momentum (at constant velocity, assuming lack of friction with the environment).
Although any device used to propel a ballistic payload is technically a mass driver, in this context a mass driver is essentially a coilgun that magnetically accelerates a package consisting of a magnetizable holder containing a payload. Once the payload has been accelerated, the two separate, and the holder is slowed and recycled for another payload.
Mass drivers can be used to propel spacecraft in three different ways: A large, ground-based mass driver could be used to launch spacecraft away from Earth, the Moon, or another body. A small mass driver could be on board a spacecraft, flinging pieces of material into space to propel itself. Another variation would have a massive facility on a moon or asteroid send projectiles to assist a distant craft.
Miniaturized mass drivers can also be used as weapons in a similar manner as classic firearms or cannon using chemical combustion. Hybrids between coilguns and railguns such as helical railguns are also possible.
==Fixed mass drivers==

Mass drivers need no physical contact between moving parts due to the projectile being guided by dynamic magnetic levitation, allowing extreme reusability in the case of solid-state power switching, a life of theoretically up to millions of launches. While marginal costs tend to be accordingly low, initial development and construction costs are highly dependent on performance, especially the intended mass, acceleration, and velocity of projectiles. For instance, while Gerard O'Neill built his first mass driver in 1976–77 with a $2000 budget, a short test model firing a projectile at 40 m/s and 33 g, his next model was an order of magnitude greater acceleration after a comparable increase in funding, and, a few years later, the University of Texas estimated that a mass driver firing a 10 kilogram projectile at 6000 m/s would cost $47 million.〔(IEEE Transactions on Magnetics, Vol Mag-18, No. 1 ). Retrieved May 10, 2011.〕〔(L5 News, Volume 2, Number 6 ). Retrieved May 10, 2011.〕〔(Electromagnetic Launchers for Space Applications ). Retrieved May 10, 2011.〕
For a given amount of energy involved, heavier objects go proportionally slower. Light objects may be projected at 20 km/s or more. The limits are generally the expense of energy storage able to be discharged quickly enough and the cost of power switching, which may be by semiconductors or by gas-phase switches (which still often have a niche in extreme pulse power applications).〔(【引用サイトリンク】title=Scanning the Technology: Modern Pulsed Power )〕 However, energy can be stored inductively in superconducting coils. A 1 km long mass driver made of superconducting coils can accelerate a 20 kg vehicle to 10.5 km/s at a conversion efficiency of 80%, and average acceleration of 5,600 g.〔(L5 news, Sept 1980: Mass Driver Update )〕
Earth-based mass drivers for propelling vehicles to orbit, such as the StarTram concept, would require large capital investment.
The Earth's strong gravity and thick atmosphere make such an installation difficult, thus many proposals have been put forward to install mass drivers on the moon where the lower gravity and lack of atmosphere greatly reduces the required velocity to reach lunar orbit.
Most serious mass driver designs use superconducting coils to achieve reasonable energetic efficiency (often 50% to 90+%, depending on design). Methods include a superconducting bucket or aluminum coil as the payload. The coils of a mass-driver can induce eddy currents in a payload's aluminum coil, and then act on the resulting magnetic field. There are two sections of a mass-driver. The maximum acceleration part spaces the coils at constant distances, and synchronize the coil currents to the bucket. In this section, the acceleration increases as the velocity increases, up to the maximum that the bucket can take. After that, the constant acceleration region begins. This region spaces the coils at increasing distances to give a fixed amount of velocity increase per unit of time.
In this mode, a major proposal for use of mass-drivers was to transport lunar surface material to space habitats so that it could be processed using solar energy.〔(NASA, 1975: Space Settlements: A Design Study ). Retrieved 2011-05-09.〕 The Space Studies Institute showed that this application was reasonably practical.
In some designs, the payload would be held in a bucket and then released, so that the bucket can be decelerated and reused. A disposable bucket, on the other hand, would avail acceleration along the whole track.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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