The On-Board Propulsion program at the NASA Glenn Research Center is utilizing a state of-the-art numerical simulation to model the performance of high-power electromagnetic plasma thrusters. Such thrusters are envisioned for use in lunar and Mars cargo transport, piloted interplanetary expeditions, and deep-space robotic exploration of the solar system. The experimental portion of this program is described in reference 1. This article describes the numerical modeling program used to guide the experimental research. The synergistic use of numerical simulations and experimental research has spurred the rapid advancement of high-power thruster technologies for a variety of bold new NASA missions. From its inception as a U.S. Department of Def...
This document aims to describe the state of the art and some basic physics of self-field Magnetopla...
A two-dimensional, two-temperature, single fluid MHD code was used to predict the performance of cyl...
The NASA Glenn Research Center is developing Lorentz force accelerators and electrodeless plasma pro...
High-power electromagnetic thrusters have been proposed as primary in-space propulsion options for s...
High-power electromagnetic thrusters have been proposed as primary in-space propulsion options for s...
Propulsion requirements for large platform orbit raising, cargo and piloted planetary missions, and ...
In this paper an overview is given on a numerical simulation program for applied field magnetoplasma...
Abstract: The magnetohydrodynamics computer code, MACH2 is employed to model and offer further insig...
Magnetoplasmadynamic (MPD) thrusters are capable of accelerating quasi-neutral plasmas to high exhau...
NASA Glenn Research Center s Very High Power Electric Propulsion task is sponsored by the Energetics...
Magnetoplasmadynamics (MPD) arc devices have been operated at power levels from 10 KW to 0.1 MW. Whe...
Over the course of eight years, the Ohio State University has performed research in support of elect...
The topics are presented in viewgraph form and include the following: overall strategy for magnetopl...
High power plasma propulsion can move large payloads for orbit transfer (such as the ISS), lunar mis...
The flowfield of a magnetoplasmadynamic thruster was simulated numerically and the results compared ...
This document aims to describe the state of the art and some basic physics of self-field Magnetopla...
A two-dimensional, two-temperature, single fluid MHD code was used to predict the performance of cyl...
The NASA Glenn Research Center is developing Lorentz force accelerators and electrodeless plasma pro...
High-power electromagnetic thrusters have been proposed as primary in-space propulsion options for s...
High-power electromagnetic thrusters have been proposed as primary in-space propulsion options for s...
Propulsion requirements for large platform orbit raising, cargo and piloted planetary missions, and ...
In this paper an overview is given on a numerical simulation program for applied field magnetoplasma...
Abstract: The magnetohydrodynamics computer code, MACH2 is employed to model and offer further insig...
Magnetoplasmadynamic (MPD) thrusters are capable of accelerating quasi-neutral plasmas to high exhau...
NASA Glenn Research Center s Very High Power Electric Propulsion task is sponsored by the Energetics...
Magnetoplasmadynamics (MPD) arc devices have been operated at power levels from 10 KW to 0.1 MW. Whe...
Over the course of eight years, the Ohio State University has performed research in support of elect...
The topics are presented in viewgraph form and include the following: overall strategy for magnetopl...
High power plasma propulsion can move large payloads for orbit transfer (such as the ISS), lunar mis...
The flowfield of a magnetoplasmadynamic thruster was simulated numerically and the results compared ...
This document aims to describe the state of the art and some basic physics of self-field Magnetopla...
A two-dimensional, two-temperature, single fluid MHD code was used to predict the performance of cyl...
The NASA Glenn Research Center is developing Lorentz force accelerators and electrodeless plasma pro...