Add to ORKGIon thruster engines for spacecraft propulsion can serve as ion beam sources for potential space processing applications. The advantages of space vacuum environments and the possible gravity effects on thruster ion beam materials operations such as thin film growth, ion milling, and surface texturing were investigated. The direct gravity effect on sputter deposition and vapor deposition processes are discussed as well as techniques for cold and warm welding
Studies were conducted to both identify the environment produced by ion thrusters and to assess the ...
Plasma probe surveys were conducted in a 30-cm source to verify that the uniformity in the ion beam ...
An experimental program, to evaluate the change in total hemispherical emittance and solar absorptan...
Ion propulsion research and development yields a mature technology that is transferable to a wide ra...
Ion source systems in different configurations, have been used to generate unique morphologies for s...
Eight centimeter ion beam sources utilizing xenon and argon have been developed that operate over a ...
Experiments were undertaken to determine sputter yields of potential ion beam target materials, to a...
The ion plating techniques are classified relative to the instrumental set up, evaporation media, an...
A summary of the ion beam applications research (IBAR) program organized to enable the development o...
Ion beam sources for material processing in their working are no different from those required for s...
Sputtering and ion plating technologies are reviewed in terms of their potential and present uses in...
Ion thrusters offer the potential to enable many future interplanetary robotic missions presently un...
A microscopic surface texture is created by sputter etching a surface while simultaneously sputter d...
This chapter uses an active space mission as well as current and ongoing research work to showcase t...
Ion beams of MeV energy are in routine use as depth microscopes to determine composition and impurit...
Studies were conducted to both identify the environment produced by ion thrusters and to assess the ...
Plasma probe surveys were conducted in a 30-cm source to verify that the uniformity in the ion beam ...
An experimental program, to evaluate the change in total hemispherical emittance and solar absorptan...
Ion propulsion research and development yields a mature technology that is transferable to a wide ra...
Ion source systems in different configurations, have been used to generate unique morphologies for s...
Eight centimeter ion beam sources utilizing xenon and argon have been developed that operate over a ...
Experiments were undertaken to determine sputter yields of potential ion beam target materials, to a...
The ion plating techniques are classified relative to the instrumental set up, evaporation media, an...
A summary of the ion beam applications research (IBAR) program organized to enable the development o...
Ion beam sources for material processing in their working are no different from those required for s...
Sputtering and ion plating technologies are reviewed in terms of their potential and present uses in...
Ion thrusters offer the potential to enable many future interplanetary robotic missions presently un...
A microscopic surface texture is created by sputter etching a surface while simultaneously sputter d...
This chapter uses an active space mission as well as current and ongoing research work to showcase t...
Ion beams of MeV energy are in routine use as depth microscopes to determine composition and impurit...
Studies were conducted to both identify the environment produced by ion thrusters and to assess the ...
Plasma probe surveys were conducted in a 30-cm source to verify that the uniformity in the ion beam ...
An experimental program, to evaluate the change in total hemispherical emittance and solar absorptan...