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Plasma Liner Development for MTF Applications: A Status Report (2001)

Thio, Y. F. ; Lee, M. ; Schafer, Charles ; [et al.]

In: Other Sources

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Publication Date: 2019-07-18

Description: An experimental plasma gun for Magnetic Target Fusion (MTF) applications under development at the NASA Marshall Space Flight Center is described. This gun has been tested experimentally and plasma jet velocities of approximately 50 km/sec have been obtained. The plasma jet structure has been photographed with 10 ns exposure times to reveal a stable and repeatable plasma structure. Data for velocity profile information has been obtained using light pipes embedded in the gun walls to record the plasma transit at various barrel locations. A high speed triggering system has been developed and tested as a means of reducing the gun "jitter". This jitter has been characterized and future work for second generation "ultra-low jitter" gun development is identified.

Keywords: Plasma Physics

Type: 2nd International Workshop in MTF; Aug 06, 2001 - Aug 10, 2001; Reno, NV; United States

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The Performance Constraints of Gain-Limited Propulsion Systems (1999)

Thio, Y. F. ; Schmidt, G. R. ; Chakrabarti, S.

In: Other Sources

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Publication Date: 2019-07-17

Description: Rapid transportation of human crews to destinations throughout the solar system will require propulsion systems having not only very high exhaust velocities (i.e., I(sub sp) greater or equal to 10(exp 4) to 10(exp 5) sec) but also extremely low mass-power ratios (i.e., alpha less than or equal to 10(exp -2) kg/kW). These criteria are difficult to meet with electric propulsion and other power-limited systems, but may be achievable with propulsion concepts that use onboard power to produce a net gain in energy via fusion or some other nuclear process. This paper compares the fundamental performance of these gain-limited systems with that of power-limited systems, and determines from a generic power balance the gains required for ambitious planetary missions ranging up to 100 AU. Results show that energy gain reduces the required effective mass-power ratio of the system, thus enabling shorter trip times than those of power-limited concepts.

Keywords: Spacecraft Propulsion and Power

Type: Jun 20, 1999 - Jun 25, 1999; Los Angeles, CA; United States

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