Add to ORKGInert gases are of interest as possible alternatives to the usual electric thruster propellants of mercury and cesium. The multipole discharge chamber investigated was shown capable of low discharge chamber losses and flat ion beam profiles with a minimum of optimization. Minimum discharge losses were 200 to 250 eV/ion for xenon and 300 to 350 eV/ion for argon, while flatness parameters in the plane of the accelerator grid were 0.85 to 0.95. The design used employs low magnetic field strengths, which permits the use of sheet-metal parts. The corner problem of the discharge chamber was resolved with recessed corner anodes, which approximately equalized both the magnetic field above the anodes and the electron currents to these anodes. Argon ...
This study undertakes the analysis and conceptual design of a 0.5 Newton electrostatic ion thruster ...
An electron-bombardment ion thruster of the SERT 2 type was operated with xenon, krypton, argon, neo...
The multipole discharge chamber of an electrostatic ion thruster is discussed. No reductions in disc...
Inert gas thrusters have continued to be of interest for space propulsion applications. Xenon is of ...
The development of a low field strength multipole thruster operating on both argon and xenon is desc...
Inert gases, particularly argon and xenon, are of interest as possible alternatives to the usual ele...
The multipole thruster was used to investigate the use of argon and xenon propellants as possible al...
Inert gas performance with three types of 12 cm diameter magnetoelectrostatic containment (MESC) ion...
A 17 cm diameter line cusp ion thruster was evaluated with inert gases which are candidate propellan...
Space electric rocket test thruster performance with xenon, krypton, argon, neon, nitrogen, helium, ...
It has been customary to assume that ions flow nearly equally in all directions from the ion product...
Electron bombardment ion thrusters using inert gases are candidates for large space systems. The J-S...
Some advances in component technology for inert gas thrusters are described. The maximum electron em...
Design analyses showed that an ion thruster of approximately 50 cm in diameter will be required to p...
An interest in alternate propellants for ion-bombardment thrusters, together with ground application...
This study undertakes the analysis and conceptual design of a 0.5 Newton electrostatic ion thruster ...
An electron-bombardment ion thruster of the SERT 2 type was operated with xenon, krypton, argon, neo...
The multipole discharge chamber of an electrostatic ion thruster is discussed. No reductions in disc...
Inert gas thrusters have continued to be of interest for space propulsion applications. Xenon is of ...
The development of a low field strength multipole thruster operating on both argon and xenon is desc...
Inert gases, particularly argon and xenon, are of interest as possible alternatives to the usual ele...
The multipole thruster was used to investigate the use of argon and xenon propellants as possible al...
Inert gas performance with three types of 12 cm diameter magnetoelectrostatic containment (MESC) ion...
A 17 cm diameter line cusp ion thruster was evaluated with inert gases which are candidate propellan...
Space electric rocket test thruster performance with xenon, krypton, argon, neon, nitrogen, helium, ...
It has been customary to assume that ions flow nearly equally in all directions from the ion product...
Electron bombardment ion thrusters using inert gases are candidates for large space systems. The J-S...
Some advances in component technology for inert gas thrusters are described. The maximum electron em...
Design analyses showed that an ion thruster of approximately 50 cm in diameter will be required to p...
An interest in alternate propellants for ion-bombardment thrusters, together with ground application...
This study undertakes the analysis and conceptual design of a 0.5 Newton electrostatic ion thruster ...
An electron-bombardment ion thruster of the SERT 2 type was operated with xenon, krypton, argon, neo...
The multipole discharge chamber of an electrostatic ion thruster is discussed. No reductions in disc...