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Self consistent kinetic simulations of SPT and HEMP thrusters including the near-field plume region
Self consistent kinetic simulations of SPT and HEMP thrusters including the near-field plume region
by Taccogna, F , Koch, N , Matyash, K , Schneider, R , Schirra, M , Mutzke, A , Kalentev, O
in Binary codes / Cusps / Discharge / Efficiency / Energy dissipation / Erosion rates / Fluxes / Hemp / High acceleration / Magnetic field configurations / Magnetic properties / Particle in cell technique / Plasma / Power efficiency / Simulation / Stationary plasma thrusters / Thermodynamic efficiency
2009
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Self consistent kinetic simulations of SPT and HEMP thrusters including the near-field plume region
by Taccogna, F , Koch, N , Matyash, K , Schneider, R , Schirra, M , Mutzke, A , Kalentev, O
in Binary codes / Cusps / Discharge / Efficiency / Energy dissipation / Erosion rates / Fluxes / Hemp / High acceleration / Magnetic field configurations / Magnetic properties / Particle in cell technique / Plasma / Power efficiency / Simulation / Stationary plasma thrusters / Thermodynamic efficiency
2009
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Self consistent kinetic simulations of SPT and HEMP thrusters including the near-field plume region
Self consistent kinetic simulations of SPT and HEMP thrusters including the near-field plume region
by Taccogna, F , Koch, N , Matyash, K , Schneider, R , Schirra, M , Mutzke, A , Kalentev, O
in Binary codes / Cusps / Discharge / Efficiency / Energy dissipation / Erosion rates / Fluxes / Hemp / High acceleration / Magnetic field configurations / Magnetic properties / Particle in cell technique / Plasma / Power efficiency / Simulation / Stationary plasma thrusters / Thermodynamic efficiency
2009

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Self consistent kinetic simulations of SPT and HEMP thrusters including the near-field plume region
Self consistent kinetic simulations of SPT and HEMP thrusters including the near-field plume region
Paper

Self consistent kinetic simulations of SPT and HEMP thrusters including the near-field plume region

Taccogna, F,
Koch, N,
Matyash, K,
Schneider, R,
Schirra, M,
Mutzke, A,
Kalentev, O
2009
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Overview
The Particle-in-Cell (PIC) method was used to study two different ion thruster concepts - Stationary Plasma Thrusters (SPT) and High Efficiency Multistage Plasma Thrusters (HEMP-T), in particular the plasma properties in the discharge chamber due to the different magnetic field configurations. Special attention was paid to the simulation of plasma particle fluxes on the thrusters channel surfaces. In both cases, PIC proved itself as a powerful tool, delivering important insight into the basic physics of the different thruster concepts. The simulations demonstrated that the new HEMP thruster concept allows for a high thermal efficiency due to both minimal energy dissipation and high acceleration efficiency. In the HEMP thruster the plasma contact to the wall is limited only to very small areas of the magnetic field cusps, which results in much smaller ion energy flux to the thruster channel surface as compared to SPT. The erosion yields for dielectric discharge channel walls of SPT and HEMP thrusters were calculated with the binary collision code SDTrimSP. For SPT, an erosion rate on the level of 1 mm of sputtered material per hour was observed. For HEMP, thruster simulations have shown that there is no erosion inside the dielectric discharge channel.
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Publisher
Cornell University Library, arXiv.org
Subject

Binary codes

/ Cusps

/ Discharge

/ Efficiency

/ Energy dissipation

/ Erosion rates

/ Fluxes

/ Hemp

/ High acceleration

/ Magnetic field configurations

/ Magnetic properties

/ Particle in cell technique

/ Plasma

/ Power efficiency

/ Simulation

/ Stationary plasma thrusters

/ Thermodynamic efficiency

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