Nuclear fusion appears to be the most promising concept for producing extremely high specific impulse rocket engines. One particular fusion concept which seems to be particularly well suited for fusion propulsion applications is the gasdynamic mirror (GDM). An experimental GDM device has been constructed at the NASA Marshall Space Flight Center to provide an initial assessment of the feasibility of this type of propulsion system. An initial shakedown of the device is currently underway with initial experiments slated to occur in late 2001. This device would operate at much higher plasma densities and with much larger L/D ratios than previous mirror machines. The high L/D ratio minimizes to a large extent certain magnetic curvature effects which lead to plasma instabilities causing a loss of plasma confinement. The high plasma density results in the plasma behaving much more like a conventional fluid with a mean free path shorter than the length of the device. This characteristic helps reduce problems associated with 'loss cone' microinstabilities. The device has been constructed to allow a considerable degree of flexibility in its configuration thus permitting the experiment to grow over time without necessitating a great deal of additional fabrication.
Current Status of the Gasdynamic Mirror Fusion Propulsion Experiment
2002
6 pages
Report
Keine Angabe
Englisch
Current Status of the Gasdynamic Mirror Fusion Propulsion Experiment
British Library Conference Proceedings | 2002
|Gasdynamic Mirror Fusion Propulsion Experiment
British Library Conference Proceedings | 2001
|Gasdynamic mirror fusion propulsion experiment
AIAA | 2000
|Gasdynamic Mirror Fusion Propulsion Experiment
NTIS | 2001
|First Results of the Gasdynamic Mirror Fusion Propulsion Experiment
British Library Conference Proceedings | 2003
|