27th International Electric Propulsion Conference
Pasadena, California October 14-19, 2001
WelcomeWelcome to the 2001 IEPC Proceedings on CD-ROM.This disc is designed so that you may rapidly locate papers by full text search as well as by subject area or paper title.
All papers were submitted as electronic files or images scanned from hard copy and converted to Adobe Acrobat PDF file format for cross-platform access. Since some of the papers were scanned from hardcopy, the viewing quality will vary with the size and quality of fonts used. Even though the viewing quality on your monitor may vary, all papers print clearly.
The materials have been created for viewing with Adobe Acrobat Reader and Full-text Search 5.0, which has been provided on the CD for your use.
Thank You and Enjoy
Chairman’s Remarks
On behalf of the 2001 IEPC organizing committee and the Electric Rocket Propulsion Society, I would like to thank all of the participants for making the 27th International Electric Propulsion Conference one of the most successful ever. The theme of this year’s conference was “Electric Propulsion 2001: Turning Science Fiction into Reality.” We have long dreamed of opening the space frontiers with electrically propelled spacecraft, and in the last few years our community has seen tremendous growth in the use of electric propulsion technologies. This growth is reflected in the attendance at this year’s IEPC, which exceeded 270 registered participants. We had representatives of the electric propulsion communities from 18 different countries and 84 different organizations, including 41 universities. The technical program consisted of 228 technical papers and 19 poster presentations. The social program was equally vigorous, with receptions at the Sheraton Hotel and Huntington Library and banquets at the Hilton and Ritz-Carlton Hotels. Attendees at the conference banquet consumed the equivalent of over a bottle of wine per person on average! This greatly facilitated technical discussions, but may have somewhat reduced the fidelity of the information exchanged during the banquet. We look forward to an equally successful meeting in 2003 at the 28th International Electric Propulsion Conference, which will be held March 17-21 in Toulouse, France.
Conference Chair:Jay Polk
Deputy Chair and Treasurer:John Ziemer
Technical Chair:John Brophy
Administrative Coordinator:Patricia Hayes-Rowe
Conference Administrator:Patricia McLane
European Chair:Georgio Saccoccia
Russian Chair:Alexander Semenkin
Japanese Chair:Haruki Takegahara
2001 IEPC Organizing Committee
2001 IEPC Sponsors
2001 IEPC Sponsors
The 2001 IEPC Organizing Committee gratefully acknowledges the generous contributions from the following organizations:
NASA Jet Propulsion LaboratoryCalifornia Institute of Technology
NASA Glenn Research Center
Advanced Space Transportation ProgramNASA Marshall Spaceflight Center
Air Force Research Laboratory
General Dynamics
TRW
1999 IEPC Organizing Committee
Centre Nationale d’Etudes Spatiales
Electric Rocket Propulsion Society
AcknowledgmentsThe 2001 IEPC would not have been possible without the many hours of hard work by a large number of people. We wish to thank the following individuals
and organizations in particular:
Tom BondEd Bryan
Joe CassadyRon Cohen
Keith GoodfellowMonica KingMary Kriebel
Colleen MarreseWilliam McGill
Al OwensEric Pencil
Anita SenguptaRobert Shotwell
Peter TurchiBrenda WatkinsDave Williamson
Rob WrightThe Jet Propulsion Laboratory Conference Administration Staff
The Jet Propulsion Laboratory Design Services Group
First Announcement for the28TH INTERNATIONAL ELECTRIC PROPULSION CONFERENCE
March 17-21, 2003, Toulouse, France
STENTOR launch 2002 : flight qualification of Hall thrusters for European geostationary telecommunication satellites
The conference : This conference will be the meeting point for the large community of specialists involved in electric propulsion, from basic research up to industrial development and flight applications. Papers will be solicited on the following topics :
-Electric propulsion systems-Thruster developments-Advanced propulsion concepts-Propulsion components-Spacecraft / thruster interactions-Applications to new missions-In-flight experience-Ground testing-Overview of current programs
The conference site: The conference will be held at the Toulouse Congress Center. Many research centers and industries involved in space technology are located in Toulouse, including CNES, Alcatel Space, ASTRIUM, ONERA and CNRS. This is why Toulouse is considered as the French capital for aerospace. But Toulouse is also famous for gastronomy and quality of life. It is located in the South-West of France, close to the Mediterranean sea and the Pyrénées mountains.
Important dates: Call for papers January 2002, Deadline for abstracts June 2002, Notification of acceptance / rejection July2002, Preliminary program November 2002, Deadline for manuscripts January 2003.
Contact: Anne Cadiou, Centre National d'Etudes Spatiales, 18 Avenue E. Belin, 31401 Toulouse, France ; [email protected].
PrefaceDisclaimerThe papers on this CD-ROM comprise the proceedings of the 2001 International Electric Propulsion Conference. They reflect the author’s opinions and, in the interest of timely dissemination, are published as presented and without change. Their inclusion on this CD-ROM does not necessarily constitute endorsement by the editors.
Copyright and Reprint PermissionAbstracting is permitted with credit to the source. Personal use of this material is permitted. However, permission to reprint/publish this material for advertising or promotional purposes or for creating new collective works for resale or distribution to servers or lists, or to reuse any copyrighted component of this work in other works must be obtained from the ERPS or from the authors if they have chosen to retain the copyright.
TrademarksAdobe, the Adobe logo, Acrobat and the Acrobat logo are trademarks of Adobe Systems Incorporated or its subsidiaries and may be registered in certain jurisdictions. Macintosh is a registered trademark of Apple Computer, Inc. UNIX is a registered trademark in the United States and other countries, licensed exclusively through X/Open Company, Ltd.Windows is a trademark of Microsoft Corporation. X Window System is a trademark of theMassachusetts Institute of Technology. I386, 486 and Pentium are trademarks of IntelCorporation. All other products or name brands are trademarks of their respective holders.
Getting StartedNAVIGATION BUTTONS
This CD-ROM contains a variety of navigational aids to help you easily explore the contents:
Section MapThis Navigation Guide is constructed with bookmarks and hypertext links pointing to the various parts of the CD. Click on a bookmark or hypertext link to go to the indicated topic.
Next Page buttonClick to advance to the next page.
Previous Page buttonClick to go back to the previous page. The Page Up and Page Down keys perform the same functions.
Home buttonClick to return Home -
The main navigation page
Getting StartedACROBAT TOOLBAR contd.
Fit Width of the ScreenFit document page into the screenView actual size
View next search results highlight wordView previous highlightView Full-text search resultsStart Full-text searchStart Find within current document
Current Page View
Find and Search
Getting StartedACROBAT TOOLBAR contd.
NAVIGATION - within a document
NAVIGATION - historical
Go to the last page of the current documentGo forward one pageGo back one pageGo to the start of the current document
Go back one page in the history of all pages viewedGo forward one page in the history of all pages viewed
Getting Started
Zoom outZoom inHand tool - default navigation mode tool
ACROBAT TOOLBAR contd.
Zoom/Selection
Getting StartedACROBAT TOOLBAR contd.Web links
Clicking the Web tool icon, on the Acrobat toolbar will startyour Web browser from within Acrobat reader. If you do not have the icon on your toolbar then you can create the link using the Acrobat Reader menu: File > Preferences > Weblink.
This will allow you to click on Web linksfrom within an Acrobat PDF file and automatically link to a Web document over the Internet.
Getting StartedACROBAT TOOLBAR contd. Show/Hide the Navigation panelClicking the icon, on the Acrobat toolbar will toggle the navigation panelon or off, on the left of the screen.
More HelpMore ICONS and tools exist in Acrobat Reader, their use and functionalitycan be found in the comprehensive Acrobat Reader Help file.
CD-ROM Technical Support InformationThis CD-ROM was created by, and technical inquiries may be addressed to:David A. Williamson at The Circle Mountain Co., Phone: (623) 465-7842 Cell: (623) 680-9419Email: [email protected]: www.thecirclemountaincompany.com
Getting StartedSEARCHINGThe fundamental power of this CD comes from the use of PDF and the high speed search capabilities. These search capabilities enable you to quickly find all the information that is relevant to your needs. Two types of search are possible with Acrobat: 1. FindFind opens a dialog box that allows searching for a character string within the currently open document. Find is relatively slow - Acrobat has to search through the whole document2. Full-text search. This search tool, installed with Acrobat Reader, supports Boolean Full-text search of the complete set of PDF files on the CD. Full-text search is extremely fast - it uses pre-built indexes of all words on the CD, including words that it can recognize within graphs and figures.
Getting StartedFind
To start Find click on the icon in the Acrobat toolbar.This will open the dialog box below:
Simply enter the characters that you are looking for, within the current document, and Acrobat will find them for you.
Getting StartedFull-text searchTo start the Full-text search click on the icon in the Acrobat toolbar.
IndexesWhen you open the Welcome.pdf file you automatically attach a Full-text Search index for all documents in the CD into your Acrobat environment.This is fine for most purposes. However, if you wish to search within other Indexes for other CDs or Acrobat Help, then another Index is attached to Acrobat Reader.This can cause complications of peculiar results because Acrobat does notremove indexes from the search criteria automatically.To eliminate this problem remove the unwanted index from the search criteria by clicking the indexes button within the Acrobat Search.
Getting StartedSetting Search Preferences
It is recommended thatyou set the Edit>Preferences>General>Search as shown:This will allow you to search within the textof the documents and titles and show the maximum set of results.
Tip: When searching enteran * in the title box to get aresults list of all filesin the CD.
Frequently Asked QuestionsQ. How can I eliminate Japanese Font Missing errors, when opening some papers, that
were created with Japanese Microsoft Word.A. Install the Japanese Font package included in a Install sub-directory on this CD.
Q. Why can I NOT perform Full-text search on the CD?A. Probably because you do not have Acrobat Reader with Search installed. You may download it from Adobe’s Web side or install the Windows version from this CD. Make sure that it is the Acrobat version with Search.
Q. Why can I open a paper, yet not find some of it’s textual content as a result of a full text search or Find?A. Most probably because the paper did not use Type 1 fonts, and the text only exists as a bitmap, which can not be indexed or searched.
Q. What is the difference between Find and Full Text Search?A. Find allows you to search within a document and is relatively slow. Full Text Search is very fast and uses a pre-built index of ALL the words in ALL the PDF files on the CD.
Q. Why do I get an error on opening a PDF file, and why does it look as if there is missing data or pictures?A. Most probably because you are using an earlier version of Acrobat. Install the Windows version from this CD or download other OS versions of Reader with Search from the Adobe Website.
Plenary Sessions
Click on a paper to open. Page 1 of 1
An Overview of Electric and Advanced Propulsion Activities in Japan
An Overview of Electric Propulsion Activities in China
An Overview of the CNES Electric Propulsion Program
Electric Propulsion Activity in Russia
European Electric Propulsion Activities and Programmes
NASA’s Electric Propulsion Program
NASA’s New Emphasis on In-Space Propulsion Technology Research
Overview of the USAF Electric Propulsion Program
Advanced Concepts
Click on a paper to open. Page 1 of 2
A Theoretical Analysis of Vacuum Arc Thruster Performance
Computer Modeling of the Laboratory Testing of Mini-MagnetosphericPlasma Propulsion (M2P2)
High Beta Plasma for Inflation of a Dipolar Magnetic Field as aMagnetic Sail (M2P2)
Ion Acceleration by Beating Electrostatic Waves: Criteria for regularand Stochastic Acceleration
Numerical Study of Plasma Production in the VASIMR Thruster
Opposed-Cavity Solar Thermal Thruster Made of Single CrystalTungsten
Parameterization of the Laboratory Performance of theMini-Magnetospheric Plasma Propulsion (M2P2) Prototype
Pressure Waves in a Far-field Repetitive Pulse Laser Thruster
Advanced Concepts
Click on a paper to open. page 2 of 2
The Potential for Compact Helicon Wave Sources for ElectricPropulsion
Thrust Measurement of a CW Laser Thruster in Vacuum
Cathode Technologies
Click on a paper to open. page 1 of 2
A Review of Testing of Hollow Cathodes for the International SpaceStation Plasma Contactor
Development of Field Emitter Array Technology for ED TetherPropulsion
Experimental Performance Evaluations of Mo and ZrC- Coated MoField Emission Array Cathodes in Oxygen
High-Current Hollow Cathode Development
High-Current Self-Heated Hollow Cathodes with Operation Currentmore than 25 A. State and Development
Life Model of Hollow Cathodes Using a Barium Calcium AluminateImpregnated Tungsten Emitter
On the Hollow Cathode for an Oxygen Discharge
Preliminary Results of Field Emission Cathode Tests
Recent Development Activities in Hollow Cathode Technology
Cathode Technologies
Click on a paper to open. page 2 of 2
The Results of Researching of Low-Current Selfheated HollowCathodes on Electric Current Range from 0,3 up to 0,5 A
Diagnostics, Erosion Processes, Physics of Failure
Click on a paper to open. page 1 of 1
30 cm Ion Thruster Discharge Cathode Erosion
Absolute Density Calibration Cell for Laser Induced FluorescenceErosion Rate Measurements
Investigation of Keeper Erosion in the NSTAR Ion Thruster
Low Energy Xenon Ion Sputtering Yield Measurements
Low-Energy Sputter Erosion of Various Materials in a T5 Ion Thruster
Measurement of Doubly Charged Ions in Ion Thruster Plumes
Methodology and Feasibility of In Situ Erosion Measurements inCarbon-Based Ion Thruster Grids by Laser Induced Fluorescence
New Laser Applications for Electric Propulsion
Status of Real- Time Laser Based Ion Engine Diagnostics at NASAGlenn Research Center
Electrodynamic Tethers
Click on a paper to open. page 1 of 1
Evaluation of Plasma Contactor Ground Experiments forElectrodynamic Tether
Kinetic Modeling of the Electron Current Collection to a Moving BareElectrodynamic Tether
Performance of Electrodynamic Tether Deorbit System on EllipticalOrbit
PIC Computation of Electron Current Collection to a Moving BareTether in the Mesothermal Condition
Propulsive Small Expandable Deployer System (ProSEDS): Preparingfor Flight
Field Emission and Colloid Thrusters
Click on a paper to open. page 1 of 2
Characterization of a Colloid Thruster Performing in the micro-NewtonThrust Range
Characterization of Electrosprays and Its Relevance to ColloidThrusters
FEEP Thruster Survivability in the LEO Atomic Oxygen Environment
FEEP-5 Thrust Validation in the 10-100N Range with a SimpleNulled-Pendulum Thrust Stand: Integration Procedures
In-FEEP Thruster Ion Beam Neutralization with Thermionic and FieldEmission Cathodes
Indium FEEP Endurance Test: Preliminary Results
Micro Newton Colloid Thruster System Development
Performance Studies of a Colloid Thruster System
Plume Characteristics of the Indium Needle Emitter (InFEEP) Thruster
Field Emission and Colloid Thrusters
Click on a paper to open. page 2 of 2
The Effect of Using Finite-Width Electrostatic Gates in Time-of-FlightMeasurements for Colloid Thrusters
Hall Thrusters
Click on a paper to open. page 1 of 7
3-Dimensional Simulation of Plasma Dynamics in SPT
A 1-D Time-Dependent Model of a Hall Thruster with Side Walls
A Comparison of Nude and Collimated Faraday Probes for Use withHall Thrusters
A Concept of Development of Electric Thrusters with Thrust VectorControl
A High Specific Impulse Two-Stage Hall Thruster with Plasma LensFocusing
A Kinetic Study of Electron-Wall Collisions in a Hall Thruster
A Numerical Study of the Effect of Channel Insulator Discontinuity onHall Thruster Discharge
A Stationary Hydrodynamic Model for Hall Thruster
About the Double-Humped Electron Distribution Function in HallThrusters
Hall Thrusters
Click on a paper to open. page 2 of 7
Analyses of the plasma flow and presheath structure in Hall Thrusters
Analysis of Communication Signal Modulation Induced by PeriodicHall Thruster Instabilities
Analysis of the Steady-State Axial Flow in the Hall Thruster
Azimuthal Non-uniformities in Accelerators with Closed Electron Drift
Characterization of the Plasma in a Hall Thruster
Characterizing Vacuum Facility Backpressure Effects on thePerformance of a Hall Thruster
Deconvolution of Axial Velocity Distributions from Hall Thruster LIFSpectra
Design and Experimental Investigation of a Small Closed Drift Thruster
Determination of the Ionization and Acceleration Zones in a StationaryPlasma Thruster
Hall Thrusters
Click on a paper to open. page 3 of 7
Development and Testing of a 4500 Watt Flight Type Hall Thruster andCathode
Development of a Finite Element Based Hall Thruster Model for SputterYield Prediction
Development of Electric Propulsion Standards - Current Status andFurther Activity
Electromagnetic Emissions from a BHT-200 Hall Thruster
Experimental Investigation of a Hall Thruster Internal Magnetic FieldTopography
Fully Kinetic Hall Thruster Modeling
Hall Thruster Plume Measurements On-board the Russian ExpressSatellites
Hall Thrusters Operating in Pulsed Mode
Influence of Discharge Oscillation on Hall Thruster Performance
Hall Thrusters
Click on a paper to open. page 4 of 7
Insights on Physics of Hall Thrusters through Fast CurrentInterruptions and Discharge Transients.
Investigation of SPT Performance and Particularities of its Operationwith Kr and Kr/Xe Mixtures
Investigation of the Boron Nitride based Ceramics Sputtering YieldUnder its Bombardment by Xe and Kr ions
Linear Geometry Hall Thruster with Boron Nitride and Diamond Walls
Low Frequency Plasma Wave Dispersion and Propagation in HallThrusters
Magnetic System for Hall Thrusters Evaluation and Design
Measurements of Plasma Potential Distribution in SegmentedElectrode Hall Thruster
Methods of Controlling Low-Frequency Oscillation in a Hall Thruster
Hall Thrusters
Click on a paper to open. page 5 of 7
Numerical Study of the Current-Voltage Characteristic of HallThrusters
Operating Envelopes of Thrusters with Anode Layer
Optical Emission of a Hall Thruster Plume in Space Condition
Overview of Hall Current Thruster Integration Activities at LockheedMartin Space Systems Company
Parameters of D-80 Anode Layer Thruster in One- and Two- StageOperation Modes
Parametric Investigations of Miniaturized Cylindrical and Annular HallThrusters
Parametric Study of a Stationary Plasma Thruster using aTwo-Dimensional Hybrid Model
Perfecting of the Technological Solutions at Manufacturing of ET MT
Performance of a High Specific Impulse Hall Thruster
Hall Thrusters
Click on a paper to open. page 6 of 7
PIC Simulation of High Specific Impulse Hall Effect Thruster
Preliminary Evaluation of Arcjet Neutralization of Hall ThrusterClusters
Preliminary Study of an ECR Discharge Hall Thruster
Simulations for a Shuttle-based Hall Thruster Plume Experiment
Study of Low Power TAL Characteristics
The Development and Qualification of a 4.5 kW Hall ThrusterPropulsion System for GEO Satellite Applications
The Main Regularity of an Ignition in a SPT
The Results of Testing and Effectiveness of the Kr-Xe MixtureApplication in SPT
The Wear of the Channel Walls in Hall Thrusters
Hall Thrusters
Click on a paper to open. page 7 of 7
Thermal Characterization and Modeling of a Low-Power LaboratoryModel TAL
Thrust Performance and Plasma Characteristics of Low Power HallThrusters
Interactions
Click on a paper to open. page 1 of 2
A Hall-Effect Thruster Plume and Spacecraft Interactions ModelingPackage
Correlation of Hollow Cathode Assembly and Plasma Contactor Datafrom Ground Testing and In-Space Operation on the InternationalSpace Station
Expansion of Secondary Plasma Generated in an EP Plume. Theoryand Experiment
Investigation of EP Self-Emission Influence upon the Sensitivity ofOnboard Radio Systems
Mitigation Process of Spacecraft Negative Charging by Plasma Flow
PIC Simulations of Spacecraft Charging and Its NeutralizationProcess by Plasma Emission
Plasma Plume Far Field Analysis
Interactions
Click on a paper to open. page 2 of 2
PLEGPAY: A Plasma Contactor Experiment on the InternationalSpace Station
PPS Effects on Satellites. Analyses and Tools in Alcatel SpaceIndustries
Ion Thrusters
Click on a paper to open. page 1 of 4
20mN-class Microwave Discharge Ion Thruster
A Grid Lifetime Model for a 3-Grid Ion Engine
A Study of High Specific Impulse Ion Thruster Optics
A Study on Microwave Discharge Ion Thruster
Carbon-based Ion Optics Development at NASA GRC
Demonstration of the NSTAR Ion Propulsion System on the DeepSpace One Mission
Design and Performance of 40 cm Ion Optics
Development of the Radio Frequency Ion Thruster RIT XT - A StatusReport
Development Status of 20mN Class Xenon Ion Thruster for ETS-8
Development Steps of the RF-Ion Thrusters RIT
DSMC-PIC Analysis of a Plume from a Small Ion Engine
Ion Thrusters
Click on a paper to open. page 2 of 4
Effects of Ion Implanted C and N on the Sputter Behaviors of Ti and MoGrid Materials
Electron Backstreaming Mitigation via a Magnetic Grid
High Performance, Low Power Ion Propulsion System Design Concept
Improving the Total Impulse Capability of the NSTAR Ion Thruster withThick-Accelerator-Grid Ion Optics
Ion Propulsion Development Activities at the NASA Glenn ResearchCenter
Ion Thruster Thrust Vectoring Requirements and Techniques
Lightweight Ion Engine Body
Long Duration Ground Testing of the Deep Space 1 Flight Spare IonThruster the First 15600 Hours
Measurements of the Electromagnetic Emissions from the MUSES-CIon Engine System
Ion Thrusters
Click on a paper to open. page 3 of 4
Molecular Dynamics Simulation of Low-Energy Sputtering ofMolybdenum with Xenon Ions
Next-Generation 5/10 kW Ion Propulsion Development Status
Numerical Analysis of Ion Beam Extraction Phenomena in an IonThruster
Numerical Modeling of Neutral and Charged Particles within a GriddedIon Thruster
Numerical Simulation of High Specific Impulse Ion Thruster Optics
Operational Features of a Linear Slit Colloid Microthruster
Particle Simulation for Ion Thruster Grid Design
Performance Evaluation of Titanium Optics for the NASA 30 cm IonThruster
Performance Test of Various Discharge Chamber Configurations forECR Discharge Ion Thruster
Ion Thrusters
Click on a paper to open. page 4 of 4
Results of a 35-cm Xenon Ion Thruster Endurance Test
Results of the 15000 Hours Lifetime Test for the RITA Ion Propulsionon ESA’s ARTEMIS Satellite
Retention of Sputtered Molybdenum on Ion Engine Discharge ChamberSurfaces
Sputter Characteristics of Carbon-Carbon Compound Material
Status of Ion Engine Development for High Power, High SpecificImpulse Missions
The Influence of Charge-Exchange Ions on the Beam Divergence of anIon Thruster
Three-Dimensional Particle Simulations of NSTAR Ion Optics
Thrust-Vector Tilting Causing by Grid Misalignment
Micropropulsion
Click on a paper to open. page 1 of 2
A Diode-Laser-Driven Microthruster
A Torsional Balance that Resolves Sub-micro-Newton Forces
Accurate Measurement of Nano-Newton Thrust for MicropropulsionSystem Characterization
Compact Plasma Accelerator for Micro-propulsion Applications
Conceptual Design of an Ion Microthruster
Development and Testing of a 3cm Electron Bombardment Micro-IonThruster
Development of Microwave Engine
Diode Laser Driven Microthruster Prototype
Hollow Cathode Micro-Thruster Performance
Low Mass Vacuum Arc Thruster System for Station Keeping Missions
Micropropulsion
Click on a paper to open. page 2 of 2
Performance Measurements Using a Sub-Micronewton ResolutionThrust Stand
Study of Very Low-Power DC Plasma-Jet Microthrusters
Temperature and Power Predictions for Flight-testing the FreeMolecule Micro-Resistojet
The Hollow Cathode as a Micro-Ion Thruster
Mission Applications and Flight Programs
Click on a paper to open. page 1 of 2
A Possible Asteroid Rendezvous Mission Launched as an Ariane 5Auxiliary Payload
Ablative Pulsed Plasma Thruster System Optimization forMicrosatellites
AFRL MicroPPT Development for the TechSat21 Flight
Analytic Optimization of Mixed Chemical-Electric Orbit RaisingMissions
Conceptual Design of a Synergistic Propulsion System for theInternational Space Station (ISS)
Electric Propulsion for a Reusable Space Cargo
Evaluating Advanced Propulsion Systems for the Titan ExplorerMission
Ion Propulsion Technology for Fast Missions to Pluto
Mission Applications and Flight Programs
Click on a paper to open. page 2 of 2
Optimization of Electric Thrusters for Primary Propulsion Based on theRocket Equation
Outer Planet Exploration with Advanced Radioisotope ElectricPropulsion
Plasma Propulsion on STENTOR Satellite: In Flight AcceptanceOperations and Experimental Program
Propulsion Instruments for Small Hall Thruster Integration
Systems-Level Trade Studies of a Dual-Mode SPT for GeosynchronousCommunications Satellites
Technological Readiness of Microwave Ion Engine System forMUSES-C Mission
The AFRL TechSat 21 Propulsion Subsystem Development Program
MPD Thrusters
Click on a paper to open. page 1 of 2
A Study of Low-Power MPD Arcjets for Future High-Power Evolution
ATTILA- Adjustable Throttle Inductively Afterburning Arc Jet
Design and Operation of MW-Class MPD Thrusters Part I: NumericalModeling
Development and Testing of a New Type of MPD Thruster
Effect of Applied Magnetic Field on Arcjet Thruster
Effect of Strong Magnetic Field on Temperature Distribution in PlasmaJet
Exhaust Plume Characteristics of Quasi-Steady MPD Thrusters
Numerical Simulation of High Power Steady State MPD Thrusters
Operation of an MPD Thruster with a Type B Cathode
Parallelization and Validation of an MHD Code for the Simulation ofSelf-Field MPDT Flows
MPD Thrusters
Click on a paper to open. page 2 of 2
Performance of an Applied Field MPD Thruster
Plasma Diagnostics in an Applied Field MPD Thruster
Self-Applied Magnetic Field Effects on Solid Propellant MPD ThrusterPerformance
Self-applied Magnetic Field Intensity Effects on Solid Propellant MpdThruster Performance
Power Processing
Click on a paper to open
Design of a Modular 5-kW Power Processing Unit for theNext-Generation 40-cm Ion Engine
EMI-EMC Compliant APPT‘s Power Processing Unit Integration
High Power Processing Unit for Stationary Plasma Thruster
High Voltage Solar Arrays for a Direct Drive Hall Effect PropulsionSystem
Solar-Electric Propulsion: The "Flying Carpet" Concept
The Development of a 4.5 kw Hall Thruster Propulsion System PowerProcessing Unit
Propellant Feed Systems
Click on a paper to open
A Xenon Flowrate Controller for Hall Current Thruster Applications
Development of a Flight Propellant Regulation System for Hall EffectThrusters
Photo-Chemically Etched Construction Technology for Digital XenonFeed Systems
Small-Size Electromagnetic Valves for SC’s EPs
Pulsed Plasma Thrusters
Click on a paper to open. page 1 of 2
A High-Order Discontinuous Galerkin Method for ModelingMicro-Pulsed Plasma Thrusters
Analyses of Teflon Surface Charring and Near Field Plume of aMicro-Pulsed Plasma Thruster
Development of a Multiplexed Coaxial Pulsed Plasma Thruster
Double Discharge Operation for Pulsed Plasma Thrusters
Evaluation of Alternate Propellants for Pulsed Plasma Thrusters
Evaluation of Pulsed Plasma Thruster System for -Lab Sat II
Experimental and Theoretical Investigation of a Coaxial Inverse-PinchPulsed Plasma Thruster II
Experimental Study of Plasma Parameters in High-Efficiency PulsedPlasma Thrusters
High Resolution Laser Diagnostics in Millimeter-Scale Micro PulsedPlasma Thrusters
Pulsed Plasma Thrusters
Click on a paper to open. page 2 of 2
Impact of Performance Scaling on Mission Analysis for Gas-FedPulsed Plasma Thrusters
Performance and Heat Loss of a Coaxial Teflon Pulsed PlasmaThruster
Performance Improvement of Pulsed Plasma Thruster for MicroSatellite
Performances and Design Studies Status of the P4S-1 Thruster
Simple and Efficient Circuit for the Initiation Process of an AblativePulsed Plasma Thruster (APPT)
Solution of Real Magnetogasdynamics Equations using a TVD Schemeas a Tool for Electric Propulsion
Two-Dimensional Numerical Simulation of Coaxial APPT
Resistojets and Arcjets
Click on a paper to open
Characteristics of TiN Coatings by Gas Tunnel Type Plasma ReactiveSpraying
Diagnostics of Atomic Oxygen in Arc-Heater Plumes
Evaporative - Type Resistor Thruster with Thermal CatalyticDecomposition of Hydrazine
Multi-hour Test of Tungsten Anodes for a Low Power DC Arcjet
Non-Equilibrium Numerical Study of a Two-Stage MicrowaveElectrothermal Thruster
Numerical Studies on Effect Nozzle Geometry and of Flow Continuityon Thrust Performance