| First Name | Last Name | Paper Title: | Upload Paper (.PDF Format Only): |
|---|---|---|---|
| SCHEREZADE | BARQUERO | Experimental plume characterization of a low-power Ablative
Pulsed Plasma Thruster (APPT) | Barquero_IEPC2022_556.pdf |
| Jaume | Navarro Cavalle | Direct Thrust Measurements of the HIPATIA System Thruster Unit | IEPC-2022-491.pdf |
| Scherezade | Barquero | Experimental plume characterization of a low-power Ablative Pulsed Plasma Thruster (APPT) | Barquero_IEPC2022_556.pdf |
| Sedina | Tsikata | Coexistence of small-scale instabilities in Hall thrusters and hollow cathodes | IEPC2022_127_manuscript_Tsikata.pdf |
| Thibault | Dubois | Insights into Hall thruster radial physics via incoherent Thomson
scattering | Insights into Hall thruster radial physics via incoherent Thomson scattering ( IEPC-2022-331) (3).pdf |
| John | Williams | Additive Manufacturing for Ion Optics | IEPC-2022-277 Additive Manufacturing for Ion Thruster Optics Ver C.pdf |
| Marco Riccardo | Inchingolo | Direct Thrust Measurements of a circular waveguide Electron Cyclotron Resonance Thruster | IEPC_2022_INCHINGOLO.pdf |
| Ken | Hara | Fluid and kinetic plasma instabilities in Hall effect thrusters | IEPC_instability_paper_Hara (3).pdf |
| Marco Riccardo | Inchingolo | Direct Thrust Measurements of a circular waveguide Electron Cyclotron Resonance Thruster | IEPC_2022_INCHINGOLO.pdf |
| Azer | Yalin | Rate-Equation Modeling of Xe and Kr Two-Photon Absorption Laser Induced Fluorescence for Electric Propulsion Applications | Xe Kr TALIF paper - v7 - IEPC - 212 Kr added.pdf |
| Collin | Whittaker | A Moment-Based Model of Multi-Site Emission for Porous Electrosprays | IEPC_2022_Whittaker_C_1.pdf |
| Sedina | Tsikata | Coexistence of small-scale instabilities in Hall thrusters and hollow cathodes | IEPC2022_manuscript_Tsikata.pdf |
| Clémence | Royer | A LIF study on the plasma plume of a cluster of two 100 W Hall thrusters | IEPC-2022-378-Royer_.pdf |
| Lucas | Nicolle | Multiscale modeling of the electrostatic coupling between plasma thruster and spacecraft - comparison with Express-A in-flight measurements | IEPC-2022-297.pdf |
| Seth | Thompson | Combined Energy and Velocity Analyzer Measurements of a Low-Power Hall Thruster | EVADER_IEPC_2022.pdf |
| Alexander | Behnke | Magnetic Field and Current Density Measurements in the Plume of the Steady State AF-MPD Thruster SX3 | IEPC-2022-475_Behnke_Magnetic.pdf |
| Edgar | Choueiri | Fundamental Limit of Self-Field MPD Thruster Efficiency | IEPC-2022-606_v7.pdf |
| Samuel | Arkai | Current Capabilities of AFRL’s Spacecraft Simulation Tool | IEPC-2022-283_Araki.pdf |
| Daniel | Eckhardt | The Single Emitter Air Force Electrospray Thruster (SEAFET) Program: Goals and Initial Results | IEPC Paper.pdf |
| Willy | Stark | Concept and design of a Hall-effect thruster with integrated thrust vector control | IEPC-2022-361 Concept and design of a Hall-effect thruster with integrated thrust vector control.pdf |
| Clémence | Royer | A LIF study on the plasma plume of a cluster of two 100 W Hall thrusters | IEPC-2022-378-Royer_.pdf |
| Clémence | Royer | A LIF study on the plasma plume of a cluster of two 100 W Hall thrusters | IEPC-2022-378-Royer_.pdf |
| Clémence | Royer | A LIF study on the plasma plume of a cluster of two 100 W Hall thrusters | IEPC-2022-378-Royer_.pdf |
| Norman | Gondol | Development and Testing of a Low-Current Applied-Field Magnetoplasmadynamic Thruster with a Rectangular Discharge Channel | IEPC_2022_473.pdf |
| Clémence | Royer | A LIF study on the plasma plume of a cluster of two 100 W Hall thrusters | IEPC-2022-378-Royer_.pdf |
| Maria | Abbi | Investigation into the wall interactions of a Hall effect thruster using water vapor as a propellant | 346_Abbi_Tejeda_Reza_Knoll.pdf |
| Marc | CHUNG TO SANG | 3D sparse PIC modeling of a Hall thruster: Comparisons with experimental results | IEPC_2022_316.pdf |
| Saptarshi | Biswas | Thrust Measurements of a 17.8-GHz Ammonia Microwave Electrothermal Thruster for Small Satellites | IEPC_2022_Biswas.pdf |
| Melina | Kamaritis | 30-GHz Proof-of-Concept Microwave Electrothermal Thruster | IEPC_30_GHZ_MET.pdf |
| Konstantinos | Papavramidis | Development Activities for the RF Helicon-based Plasma Thruster: Thrust Measurement and B-dot Probe Set-up | IEPC-2022-432_Papavramidis_IPT_Characterization.pdf |
| Edgar | Choueiri | Fundamental Limit of Self-Field MPD Thruster Efficiency | IEPC-2022-606_v6.pdf |
| Collin | Whittaker | A Resilient Extractor for Electrospray Arrays | IEPC_2022_Whittaker_C_2_.pdf |
| Collin | Whittaker | A Resilient Extractor for Electrospray Arrays | IEPC_2022_Whittaker_C_2_.pdf |
| Collin | Whittaker | A Moment-Based Model of Multi-Site Emission for Porous Electrosprays | IEPC_2022_Whittaker_C_1.pdf |
| Mitchell | Walker | Overview of the Joint AdvaNced PropUlsion InStitute (JANUS) | IEPC-2022-156.pdf |
| Konstantinos | Papavramidis | Development Activities for the RF Helicon-based Plasma Thruster: Thrust Measurement and B-dot Probe Set-up | IEPC-2022-432_Papavramidis_IPT_Characterization.pdf |
| Edgar | Choueiri | Fundamental Limit of Self-Field MPD Thruster Efficiency | IEPC-2022-606_v5.pdf |
| Margaret | Mooney | Wave characterization of a hollow cathode plume in a HET-like magnetic field | IEPC-2022-113.pdf |
| Colleen | Marrese-Reading | Electrospray Thruster Lifetime Modeling with Uncertainty Quantification and Experimental Test Validation | IEPC2022Paper234_v12.pdf |
| Nina Sarah | Mühlich | Highly focused ion beam of a FEEP thruster generated with a compact electrostatic lens system | 2022-06-20_IEPC-2022-189_Paper_Muehlich.pdf |
| Florian | Prochnow | Development of a Novel Passively Ionizing Air-Breathing Electric Propulsion Concept for Low Earth Orbits | IEPC-2022-420 - Novel ABEP concept.pdf |
| Nicolas | Lequette | PIC simulations of an iodine inductively coupled plasma for
gridded-ion thruster applications | IEPC_2022_433_Lequette.pdf |
| Daniel | Eckhardt | The Single Emitter Air Force Electrospray Thruster (SEAFET) Program: Goals and Initial Results | IEPC Paper.pdf |
| Asish | James | Electrostatic Collisionless Full-PIC Simulation of Plasma Dynamics in a Magnetic Nozzle | James_Asish_0623_Kresge_Rehearsal_Room_B_535.pdf |
| Burcu | Altuntas | Numerical Simulation of Hall Effect Thruster Plasma Plumes | Altuntas_Abstract_for_IEPC2022.pdf |
| Mario | Merino | Preliminary model of the plasma expansion in a magnetic arch thruster (and overview of the first prototype) | magnetic_arch_model_IEPC2022.pdf |
| Mansur | Tisaev | Development of an air-breathing neutraliser as part of the AETHER system | IEPC22_105_Neutraliser_development.pdf |
| Ryo | Minematsu | Langmuir probe diagnostics in a water microwave discharge neutralizer
| 2022-274_IEPC_rev8.pdf |
| Jay | Polk | The Effect of Time-Varying Currents on Hollow Cathode Operation | IEPC2022 Effect of Time-Varying Currents-compressed_1.pdf |
| Kuo-Yi | Chen | Research on reducing the divergence angle of plasma plume by magnetic mirror for the ECR thruster | Research on reducing the divergence angle of plasma plume by magnetic mirror for the ECR thruster.pdf |
| Francesco | Battista | MSVC Recent developments: a research facility devoted to Low Power Electric Thrusters operating at CIRA | iepc22_CIRA_154_final.pdf |
| Vincent | Feng | Plume Diagnostics
of a 2.45-GHz Microwave Electrothermal Thruster | IEPC_2022.pdf |
| Richard | Obenchain | Ion Thruster Facility Effects Characterization via Computational Analysis | IEPC_2022_264_Obenchain_Ion_Thruster_Facility_Effects_Characterization_via_Computational_Analysis.pdf |
| Hiroyuki | Koizumi | 1U+ Water Ion and Resistojet Thruster Module for On-orbit Demonstration | 220618_IEPC Paper_Nakagawa.pdf |
| Jordan | Hsieh | Cylindrical Magnetic Quadrupole Plasma Thruster with a Filament Emitter Hollow Cathode | Cylindrical Magnetic Quadrupole Plasma Thruster with a Filament Emitter Hollow Cathode.pdf |
| Jordan | Hsieh | Hectowatt-Class Double-Peaked Hall Thruster for Future Space Missions | Hectowatt-Class Double-Peaked Hall Thruster for Future Space Missions.pdf |
| Zhivkp | Kiss'ovski | Experimental Investigation of Microwave Electrothermal Thruster with Surface Wave Plasma | IEPC-2022-534-Kissovsky-June 2022.pdf |
| Yevgeny | Raitses | Electron-Beam Generated E×B Plasma for Air-Breathing Propulsion- a concept study | IEPC 2022-443_Fin.pdf |
| David | Krejci | The first 100 FEEP propulsion systems in space: A statistical view and lessons learnt of 4 years of ENPULSION | Manuscript_ENP_100thruster_final.pdf |
| Vernon | Chaplin | Preparation for Wave Measurements Using LIF, and Comparison of Ion Velocities in Cathode Testing versus Hall Thruster Operation | Chaplin_et_al_HERMeS_cathode_LIF_IEPC2022_v3_with_copyright.pdf |
| Mitchell | Walker | Overview of the Joint AdvaNced PropUlsion InStitute (JANUS) | IEPC-2022-156.pdf |
| Natalia | Nigay | Vacuum Chamber Testing of Beamed Microwave Energy Propulsion | IEPC-2022-537.pdf |
| Jordan | Hsieh | Cylindrical Magnetic Quadrupole Plasma Thruster with a Filament Emitter Hollow Cathode | Cylindrical Magnetic Quadrupole Plasma Thruster with a Filament Emitter Hollow Cathode.pdf |
| Lahib | BALIKA | SPT-140DM qualification for SBNeo platform | IEPC-295 SPT-140DM qualification for SBNeo platform.pdf |
| Ashley | Hallock | Analysis of Plume-Spacecraft Interaction for the Innosat Platform | Hallock_IEPC_2022_459.pdf |
| Scherezade | Barquero | Experimental plume characterization of a low-power Ablative Pulsed Plasma Thruster (APPT) | BARQUERO556_IEPC.pdf |
| Madison | Allen | Application of Optimal Experimental Design to Characterize Pressure Related Facility Effects in a Hall Thruster | IEPC_2022_Allen_M_final.pdf |
| Tatiana | Perrotin | Characterization of a low-power Cylindrical Hall Thruster | IEPC_2022_359.pdf |
| Marco Riccardo | Inchingolo | Direct Thrust Measurements of a circular
waveguide Electron Cyclotron Resonance Thruster | IEPC_2022_INCHINGOLO_final2.pdf |
| Chris R. | Acheson | Computational modelling of superconducting applied-field magnetoplasmadynamic thrusters: how does magnetic shielding influence thrust? | IEPC_2022_472.pdf |
| Andrew | Badger | DART DCIU Simulator:
Flight Software Control of the NEXT-C Ion Propulsion System | IEPC2022_DART_DCIU_Simulator_Post_Feedback_v21_FINAL_Submitted.pdf |
| Michael | Tsay | Volume Production of Gen-2 Iodine BIT-3 Ion Propulsion System | IEPC-2022-267 v7.pdf |
| Takeru | Furukawa | Ion Flow Velocimetry in Radio Frequency Plasma Thruster Using Additional Rotating Magnetic Field Acceleration Method | IEPC2022_Furukawa_paper_ver.2.pdf |
| Marc | CHUNG TO SANG | 3D sparse PIC modeling of a Hall thruster: Comparisons with experimental results | IEPC_2022_316.pdf |
| Amin | Taziny | A hybrid continuum-kinetic framework to model ionic liquid ion source emission | IEPC-2022-233_Taziny_A hybrid continuum-kinetic framework to model ionic liquid ion source emission.pdf |
| Nao | Murata | Observation of Plasma Behavior in the Transverse Magnetic Field | Murata_Nao_IEPC.pdf |
| Mansur | Tisaev | Development of an air-breathing neutraliser as part of the AETHER system | IEPC22_105_Neutraliser_development.pdf |
| Thibault | Dubois | Insights into Hall thruster radial physics via incoherent Thomson scattering
| IEPC_2022_Template.pdf |
| Jonathan | Skalden | Development of an AM Based Arcjet System for Deorbiting Constellation Satellites | IEPC-2022-578_Skalden_Development of an AM Based Arcjet System for Deorbiting Constellation Satellites.pdf |
| Madison | Allen | Application of Optimal Experimental Design to Characterize Pressure Related Facility Effects in a Hall Thruster | IEPC_2022_Allen_M.pdf |
| Kevin | Sampson | Simulations of Xenon Beam Ions Emitted from Electric Thrusters in Earth's Magnetosphere | IEPC_2022_152_Sampson_Crofton-Final.pdf |
| Joshua | Eckels | Simulation-based surrogate methodology of electric field for electrospray emitter geometry design and uncertainty quantification | IEPC_2022(5).pdf |
| Seth | Thompson | Combined Energy and Velocity Analyzer Measurements of a Low-Power Hall Thruster | EVADER_IEPC_2022.pdf |
| Rei | Kawashima | Hybrid-PIC Simulation of Gradient Drift Instabilities in Hall Thrusters for Electron Transport Analysis | IEPC-2022-370_Kawashima_Hybrid-PIC Simulation of Gradient Drift Instabilities in Hall Thrusters for Electron Transport Analysis.pdf |
| Clémence | Royer | A LIF study on the plasma plume of a cluster of two 100 W Hall thrusters | IEPC-2022-378-Royer_.pdf |
| Takeru | Furukawa | Ion Flow Velocimetry in Radio Frequency Plasma Thruster Using Additional Rotating Magnetic Field Acceleration Method | IEPC2022_Furukawa_paper.pdf |
| Satoru | Shitara | Characterization of small-size very low-power Hall thrusters
| IEPCshitara.pdf |
| Nazareno | Fazio | Alternative Propellants for Gridded Ion Engines: Hollow cathode operation using Kr and Xe/Kr mixture | IEPC2022-Paper_N Fazio_Hollow cathode APs (_270).pdf |
| Nazareno | Fazio | Discharge Performance Analysis of different types of Gridded Ion Engines using Alternative Propellants | IEPC2022-Paper_N Fazio_0D models (_268)_final.pdf |
| SALMAN | SARWAR | Global and PIC modeling of air - breathing plasma engines | IEPC_2022_Paper-2.pdf |
| Pierre | Sarrailh | Multiscale simulations of plasma plume collection by solar array and erosion of interconnects | IEPC-2022-461_v0.3.pdf |
| Magdalena | Parta | Fiber-fed Pulsed Plasma Thruster (FPPT) with Multi-axis Thrust Vectoring | FPPT IEPC22 Paper v10-reduced.pdf |
| Stephen | Gabriel | Two dimensional modelling of heaterless hollow cathodes | HHCfirstdraftIEPC2022Boston 2.pdf |
| Emmanuelle | Rosati Azevedo | Sizing and Preliminary Design of a 2-kW Water Propelled Hall Effect Thruster | IEPC2022_AQUAHET_i01r01.pdf |
| Leanne | Su | Investigation into the Efficiency Gap between Krypton and Xenon Operation on a Magnetically Shielded Hall Thruster | IEPC_2022_Su_L_Krypton.pdf |
| Francesco | Guarducci | Development and Industrialization of the RIT 3.5 | Development and Industrialization of the RIT 3.5_IEPC-2022-272.pdf |
| Gabriel | Stephen | Two-dimensional modelling of hollow cathodes with Krypton propellant | KrIEPC2022PAPERTEMPLATE 2.pdf |
| Marc | VILLEMANT | FEEP model integration in SPIS software, applications to themodelling of vacuum chamber test-bed and nano-satellite in lowearth orbit | IEPC-2022-213_villemant_Electrospray2.pdf |
| Mansur | Tisaev | Flight envelope and in-orbit control analysis for an air-breathing electric propulsion spacecraft | IEPC22_455_ABEP_mission_analysis.pdf |
| Victor | Désangles | ECRA thruster advances, 30W and 200W prototypes latest performances | IEPC-2022-513_v2.pdf |
| Saba | Shaik | Characterization of a Single-Polarity Electrospray Propulsion System | IEPC_2022_203_Shaik.pdf |
| Shehan | Parmar | A Bayesian Data-driven Model for Quantifying Electrospray Lifetime | IEPC_2022_230_Parmar_A_Bayesian_Data_driven_Model_for_Quantifying_Electrospray_Lifetime.pdf |
| Klevis | Gasa | Development of a low current dry neutralizer in a Pierce Gun configuration | IEPC - Klevis Gasa.pdf |
| Willca | Villafana | 3D Particle-In-Cell modeling of anomalous electron transport driven by the Electron Drift Instability in Hall thrusters | IEPC_2022_375_Villafana_3D_PIC-2.pdf |
| Nolan | Uchizono | Electrospray Thruster Facility Effects: Characterization of Secondary Species Emission | Uchizono_IEPC-2022-219.pdf |
| Lucas | Nicolle | Multiscale modeling of the electrostatic coupling between plasma thruster and spacecraft - comparison with Express-A in-flight measurements | IEPC-2022-297.pdf |
| Carl | Geiger | Energy-Dependent QCM Measurements of an Electrospray Plume | Energy-Dependent QCM Measurements of an Electrospray Plume.pdf |
| Gustav | Pettersson | Performance Measurement and Propellant Testing for the STEP-1 CubeSat Elecrospray Thrusters | IEPC_2022_Thrusters.pdf |
| Alexander | Daykin-Iliopoulos | Development of a Heaterless Hollow Cathode for Miniature EP Systems | IEPC-2022-143_HHC_A Daykin-Iliopoulos_paper.pdf |
| Gary | Wan | Surface Analysis of a High-Power LaB6 Hollow Cathode | IEPC-2022-597-Wan_SurfaceAnalysisofaHigh-PowerLaB6HollowCathode.pdf |
| Amin | Taziny | A hybrid continuum-kinetic framework to model ionic liquid ion source emission | IEPC-2022-233_Taziny_A hybrid continuum-kinetic framework to model ionic liquid ion source emission.pdf |
| Charity | Wangari | Electroactive Polymer Emitters for Electrospray Propulsion | IEPC_2022_195_WangariLozano_Electoactive Polymer Emitters for Electrospray Propulsion.pdf |
| Andrew | Denig | Kinetic Model of Plasma Sheath Near a Dielectric-Coated Metal Wall | IEPC_2022_Denig.pdf |
| Boni | Federico | Experimental characterization of thrust production mechanisms in a magnetic nozzle ECR thruster | iepc-2022-528.pdf |
| Matthew | Byrne | Coupling of Electrical and Pressure Facility Effects in Hall Effect Thruster Testing | IEPC_2022_Byrne_M.pdf |
| Parker | Roberts | Elevated Hall Thruster Surface Sputtering due to Azimuthal Cathode Waves | IEPC_2022_Roberts.pdf |
| Mary | Konopliv | Fast Optical Emission Spectroscopy for Studying Plasma Behavior in Hall Thrusters | IEPC_2022_171_Konopliv_FastOES.pdf |
| Angelica | Ottaviano | Electron Emission from Volumetrically Complex Materials for Thruster and Facility Surfaces | IEPC_2022_595.pdf |
| Mary | Konopliv | Accuracy of Metastable State Measurements in Laser-Induced Fluorescence of Xenon Ion Velocity in Hall Thrusters | IEPC_2022_172_Konopliv_LIF.pdf |
| Alexander | Daykin-Iliopoulos | Iodine compatible hollow cathode | IEPC-2022-142_iHC_A Daykin-Iliopoulos_paper.pdf |
| Benjamin | Jorns | Prediction and Mitigation of the Mode Transition in a Magnetically Shielded Hall Thruster at High-Specific Impulse and Low Power | IEPC_2022_Jorns.pdf |
| Richard | Hofer | Performance of a Conducting Wall, Magnetically Shielded Hall Thruster at 3000-s Specific Impulse
| H9C IEPC-2022-401 R03.pdf |
| Collin | Whittaker | A Moment-Based Model of Multi-Site Emission for Porous Electrosprays | IEPC_2022_Whittaker_C_1.pdf |
| Collin | Whittaker | A Resilient Extractor for Electrospray Arrays | IEPC_2022_Whittaker_C_2_.pdf |
| Asish | James | Electrostatic Collisionless Full-PIC Simulation of Plasma Dynamics in a Magnetic Nozzle | James_Asish_0623_Kresge_Rehearsal_Room_B_535.pdf |
| Thomas | Marks | Modeling anomalous electron transport in Hall thrusters using surrogate methods | IEPC_2022_Marks_T.pdf |
| Amelia | Bruno | Investigating Variations in Startup Emission Across a Passively Fed Porous Electrospray Thruster | IEPC_2022_Thruster_Startup.pdf |
| Tate | Gill | Experimental Investigation into Mechanisms for Energy Loss in a Rotating Magnetic Field Thruster | IEPC_2022_Gill_T_Final.pdf |
| Richard | Obenchain | Ion Thruster Facility Effects Characterization via Computational Analysis | IEPC_2022_264_Obenchain (1).pdf |
| Carl | Geiger | Energy-Dependent QCM Measurements of an Electrospray Plume | Energy-Dependent QCM Measurements of an Electrospray Plume.pdf |
| Sebastian K. | Hampl | Comparison of Computational Methods for Modeling an Electrospray Plume with a n-body Simulation | IEPC_Paper.pdf |
| Margaret | Mooney | Wave characterization of a hollow cathode plume in a HET-like magnetic field | IEPC-2022-113.pdf |
| Salvatore | Baldinucci | Impact of Facility Electrical Boundary Conditions on the Performance of an Electron Cyclotron Resonance Magnetic Nozzle Thruster | IEPC_2022_510.pdf |
| Yusuke | Takagi | Performance evaluation and Plasma diagnostics of
Cylindrical Hall Thruster “SCHT-I” | Takagi_Yusuke_0622_ Hall Thrusters- Performance 2_397.pdf |
| Graeme | Sabiston | Volumetrically Complex Materials for Reducing Electric Propulsion Facility Effects | Sabiston_Graeme_IEPC-2022-594.pdf |
| Kentaro | Hara | Fluid and kinetic plasma instabilities in Hall effect thrusters | IEPC_instability_paper_Hara.pdf |
| Mercedes | Ruiz | Results of the first Helicon Plasma Thruster (HPT) coupling test campaign within the HIPATIA project
| IEPC-2022-524 HIPATIA v1.0.pdf |
| Kentaro | Hara | Theoretical Characterization of Fluctuation-Induced Electron Transport Across Magnetic Fields | IEPC_2022-383_Sewell.pdf |
| Matthew | Corrado | Densification of Ionic Liquid Electrospray Thrusters using Silicon-Based MEMS Fabrication | IEPC-2022-177_Corrado_Densification of Ionic Liquid Electrospray Thrusters using Silicon-Based MEMS Fabrication.pdf |
| Arsenii | Riazantsev | Parametric Study of Debye Sheath Emergence Using Kinetic Simulations | IEPC-2022-385_Riazantsev_Parametric_Study.pdf |
| John | Williams | Additive Manufacturing for Ion Optics | IEPC-2022-156 Additive Manufacturing for Ion Thruster Optics Ver B.pdf |
| Yi-chien, Chen | Yi-Chien | Stability Control of Inductively Coupled Plasma for RF Ion Thrusters | Christine Yi-Chien Chen, 2022, IEPC.pdf |
| Alex | Nikrant | Overview and Performance Characterization of Northrop Grumman's 1 kW Hall Thruster String | IEPC-2022-303_FINAL_v3 (1).pdf |
| Mohammed | Asif | Design and Development of the Western Miniature ECR Gridded Ion Thruster | Asif_Nuzzo_WMGIT_IEPC_2022_265.pdf |
| William | Hurley | Application of Bayesian Inference to Design an Air-Core Circuit Magnetic Circuit for a Magnetically Shielded Hall thruster | IEPC_2022_Hurley_Will.pdf |
| Pablo | Fajardo | A 3D electron fluid model with energy balance for plasma plumes | 321_MODESTI.pdf |
| Edgar | Choueiri | Scaling of the Ionization Fraction in a Self-Field MPD Thruster | IEPC-2022-605_Choueiri_di_Lauro_v2.pdf |
| Edgar | Choueiri | Fundamental Limit of Self-Field MPD Thruster Efficiency | IEPC-2022-606_v4.pdf |
| Catherine | Miller | Characterization of Ion Cluster Dissociation in Ion Electrospray Thrusters Using Time of Flight Mass Spectrometry | IEPC-2022-225_Miller_CharacterizationofIonClusterDissociation.pdf |
| Michael | May | PIC Simulation of a Capacitively Coupled Radio Frequency Plasma Microthruster | Michael_May_IEPC_2022 (1).pdf |
| Jonathan | MacArthur | An Electrowetting Flow Controller for Ion Electrospray Propulsion Systems | MacArthur_IEPC_2022_compressed.pdf |
| Andres | Castillo | Kinetic modeling of plasma-wall interactions with magnetic field and secondary emission effects | IEPC_2022_AC_final.pdf |
| Thomas | Munro-O'Brien | Experimental Testing of a High Current Lanthanum Hexaboride Hollow Cathode | 119_compressed.pdf |
| Adam | Collins | Neutral Mass Flux Measurements of an Electrospray Plume | IEPC-2022-227_Collins_NeutralMassFlux.pdf |
| Adam | Collins | Three-Dimensional Microscopy and Analysis of the Emission Cone Meniscus for Electrospray Thrusters | IEPC-2022-228_Collins_Threedimensionalmicroscopy.pdf |
| Marcus | Collier-Wright | State of the Art Review in Superconductor-based Applied-Field Magnetoplasmadynamic thruster technology | IEPC_2022_476_26_40.pdf |
| Adam | Collins | High Angle Mass Flux of an Electrospray Plume | IEPC-2022-226_Collins_HighAngleMassFluxofanElectrosprayPlume.pdf |
| Jose Manuel | Donoso | Numerical analysis of alphie: plume structure and counterflow of charges through the grid system | JMDonoso_Paper_VDEF.pdf |
| Ryo | Minematsu | Langmuir probe diagnostics in a water
microwave discharge neutralizer | IEPC-2022-274.pdf |
| Margaret | Mooney | Wave characterization of a hollow cathode plume in a HET-like magnetic field | IEPC-2022-113.pdf |
| Takanobu | Muranaka | Estimation of Charging for HAYABUSA2 by Analysis of Surface Erosion in Ion Thruster Operation | 2022IEPC_IEPC_2022_275_paper_rev1.pdf |
| Derek | Kuldinow | Development of a Ten-Moment Fluid Model for Low-Temperature Magnetized Plasmas | IEPC2022_Final (1).pdf |
| Toyofumi | Yamauchi | Kinetic modeling and experiments of pulsed response of two noble gas plasma | IEPC-2022-587 Toyofumi Yamauchi.pdf |
| Jorge | Gonzalez | Thrust measurements and plasma plume kinetics of the Alternative Low Power Hybrid ion Engine alphie | JGonzalez_Paper.pdf |
| Michael | Bretti | Progress and Developments of Ultra-Compact 10 Watt Class Adamantane Fueled Hall Thrusters for Picosatellites | IEPC-2022-349.pdf |
| Franz Georg | Hey | Overview of the European iodine Fed Cusp Field Thruster Research and Innovation Action - iFACT | iFACT Overview IEPC 2022_530.pdf |
| Kathleen | Quinlan | Magnetic Induction Plasma Engine | DTI IEPC - MIPE Quinlan.pdf |
| Madeleine | Schroeder | Investigating Prompt Ionic Liquid Cluster Fragmentation from Electrospray Total Mass Flow Measurements | IEPC_2022_Mass_Flow.pdf |
| Luis | Conde López | Heaterless plasma discharge (HPD) cathode for electric propulsion applications | Version-1.pdf |
| F. de Borja | De Saavedra | Direct thrust measurements of an externally wetted electrospray thruster | IEPC_2022_223_DeSaavedra.pdf |
| Mohammed | Asif | Design and Development of a Torsional Thrust Stand for mNs Thrust Measurements | Asif_Thrust_Stand_IEPC-2022-170.pdf |
| Michael | Tsay | 3,500-Hour Wear Test Result of BIT-3 RF Ion Propulsion System | IEPC-2022-255 v6.pdf |
| Ximo | Gallud Cidoncha | The current emitted by ionic liquid ion sources in the pure-ionic regime | IEPC_2022.pdf |
| Michael | Tsay | Volume Production of Gen-2 Iodine BIT-3 Ion Propulsion System | IEPC-2022-267 v7.pdf |
| Margaret | Mooney | Wave characterization of a hollow cathode plume in a HET-like magnetic field | IEPC-2022-113.pdf |
| HUANG | PING-HAN | Triple Langmuir Probe Diagnostics for Vacuum Arc Thruster with
Multilayer Electrodes | 2022 IEPC- 黃丙翰老師改.pdf |
| Huang | Yi-Lung | Development of a low power cylindrical Hall thruster with tungsten filament cathode | IEPC-2022-353 Development of a low power cylindrical Hall thruster with tungsten filament cathode.pdf |
| Franco | Bosi | Experimental characterization of a Ring-Cusp discharge chamber with xenon and krypton | IEPC-2022-248_Experimental characterization of a Ring-Cusp discharge chamber with xenon and krypton.pdf |
| Fukasawa | Yuto | Influence of ablation of annular propellant and center anode of coaxial pulsed plasma thruster | IEPC2022-565.pdf |
| Oliver | Jia-Richards | Thrust Inference for Ionic-Liquid Electrospray Thrusters on a Magnetically-Levitating Thrust Balance | iepc2022_maglev_thrust_inference_v3.pdf |
| Lou | Grimaud | Qualification status update of the MICRO R3 and NANO R3 FEEP thrusters | IEPC_2022_200.pdf |
| Hokuto | Sekine | In-plane Perpendicular Electric Field and Azimuthal Current Drive in Time-Varying Magnetic Nozzle | 220623_Sekine_IEPC-2022-523_In-plane Perpendicular Electric Field and Azimuthal Current Drive in Time-Varying Magnetic Nozzle.pdf |
| Hokuto | Sekine | Role of hot electrons on ionization in a miniature microwave discharge neutralizer | 220621_Sekine_IEPC-2022-258_Role of hot electrons on ionization in a miniature microwave discharge neutralizer.pdf |
| Christoph | Eichhorn | Two-photon laser-induced fluorescence measurements of neutral densities near the accelerator grid of an ion thruster: Status of current activities | IEPC_2022_261_Eichhorn_et_al.pdf |
| Daniel | Troyetsky | State estimation for real-time analysis of dynamic plasma properties and electrical circuit effects in Hall effect thrusters | TroyetskyIEPC2022.pdf |
| George-Cristian | Potrivitu | Zero-Dimensional Plasma Model for Open-end Emitter Thermionic Hollow Cathodes with Integrated Thermal Model | IEPC-2022-116_POTRIVITU_Zero-dimentional.pdf |
| Jakob | Balkenhohl | A Review of Low-Power Applied-Field Magnetoplasmadynamic Thruster Research and Formulation of an Improved Semi-Empirical Performance Model | IEPC-2022-481_Balkenhohl_A Review of Low-Power Applied-Field Magnetoplasmadynamic Thruster Research and Formulation of an Improved Semi-Empirical Performance Model.pdf |
| Christian | Drobny | Characterization of a Low Current Heaterless C12A7 Electride Hollow Cathode for an Electrodynamic Tether Deorbiting Device | IEPC-2022-111_Drobny.pdf |
| MATTEO | LATERZA | Novel cathodeless and very low-power Hall thruster: Qualification and integration on a 3U platform for an in-orbit demonstration mission | IEPC-2022-326.pdf |
| Jesús Manuel | Muñoz Tejeda | A Water Electrolysis Hall Effect Thruster Computational Model with Radiofrequency Excitation | Paper_WETHET_RF_modelling_IEPC_2022_v3.pdf |
| Jinichiro | Aoyagi | Effect of Electrodes Dimensions of 2 J Electromagnetic Pulsed Plasma Thruster for Small Satellites | 220617IEPC-2022-567-aoyagi.pdf |
| Takayuki | Asai | Research and development of Magnetic-layer type Hall Thruster “ST-II” for small satellite
| IEPC-2022-396_TakayukiAsai.pdf |
| Nicolas | Lequette | Particle-In-Cells simulations of an iodine inductively coupled
plasma for gridded-ion thruster applications | IEPC_2022_433_Lequette.pdf |
| Curtis | Woodruff | Monofilament Vaporization Propulsion (MVP) Flight-like System Performance | MVP IEPC22 Paper v5.pdf |
| Andrew | Powis | Three-Dimensional Kinetic Simulations of Oscillations and Anomalous Electron Transport in a Hall Thruster | IEPC-2022-532_Powis.pdf |
| Federico | Petronio | The introduction of a virtual radial direction in axial-azimuthal PIC simulations of Hall Thrusters | IEPC-2022-286_petronio_faker.pdf |
| Taisei | NAKAJIMA | Performance Evaluation of a Double-Channel TAL-Type Hall Thruster | IEPC-2022-354.pdf |
| Curtis | Woodruff | Cycle Automated Mass Flow (CAMFlow) System for Hall Thrusters | CAMFlow IEPC22 Paper v7.pdf |
| Manel | Caballero-Pérez | Effect of operating variables on the propulsive performance of cone-jet electrosprays | Final_IEPC.pdf |
| Hans-Peter | Harmann | Building Blocks for EP Propellant Management Systems | IEPC-2022-583 Building Blocks for EP Propellant Management Systems.pdf |
| Matteo | Laterza | MUlti-Stage Ignition Compact Thruster Concept and Testing | IEPC_2022_294_Laterza_Multi_Stage_Ignition.pdf |
| Peter | Thoreau | Influence of Field Topology on Magnetically Shielded Hall Thruster Performance | Influence of Field Topology on Magnetically Shielded Hall Thruster Performance - IEPC 2022 - Peter Thoreau.pdf |
| Kristof | Holste | Endurance and coupling test of the RIT-µX | IEPC-2022-247_Holste_Endurance_and_coupling_test_of_the_RIT_muX.pdf |
| Arvindh | Sharma | Study of Spokes in Crossed-Field Discharge of an Inductive Pulsed Plasma Thruster using Image Analysis | IEPC-2022-559.pdf |
| Jonathan | Skalden | Development of an AM Based Arcjet System for Deorbiting Constellation Satellites | IEPC-2022-578_Skalden_Development of an AM Based Arcjet System for Deorbiting Constellation Satellites.pdf |
| Maria | Abbi | Investigation into the wall interactions of a Hall effect thruster
using water vapor as a propellant | 346_Abbi_Tejeda_Reza_Knoll.pdf |
| Wayne | Ohlinger | Progress in Hollow Cathode Development at e-beam | Progress in Hollow Cathode Development at e-beam _Ohlinger & Vancil_IEPC-2022-145.pdf |
| Daigo | Takasaki | Performance Measurements of a Propellant-free LaB6 Thermionic Cathode | 220617_IEPC2022_paper_Takasaki_rev2.pdf |
| Aaron | Knoll | Experimentally Demonstrating the Feasibility of Water as a Multimode Electric-Chemical Propellant | Experimentally_Demonstrating_the_Feasibility_of_Water_as_a_Multimode_Electric_Chemical_Propellant_Submitted.pdf |
| Felix | Chan-ying | Design and Characterization of a Micro-Hall Thruster for Spacecraft | IEPC_2022_376_Felix_Chan_Ying.pdf |
| Wai Hong Ronald | Chan | Enabling direct kinetic simulation of dense plasma plume expansion for laser ablation plasma thrusters | IEPC_2022_Template_v6.pdf |
| Junhwi | Bak | Plasma formation and electron cross-field transport in the axial-azimuthal plane of a Hall thruster | IEPC_2022_289_Bak_final.pdf |
| Moshe | Tordjman | Advanced Heaterless Cathode Electron Emission:
Xenon Vs. Krypton Propellants | Advanced Heaterless Cathode Electron Emission with Xenon and Krypton Propellants_19.06.2022.pdf |
| Christine | Greve | Real-Time Estimation of Electron Mobility in Hall Effect Thruster Models | IEPC2022_Greve_RealTimeState.pdf |
| Sebastian K. | Hampl | Comparison of Computational Methods for. Modeling an Electrospray Plume with a n-body Simulation | IEPC_Paper.pdf |
| Peter | Mallalieu | Development of a Time-of-Flight Diagnostic System for Electrospray Thrusters | IEPC_2022_197.pdf |
| Daisuke | Komatsu | Evaluation of MW-Class Quasi-steady MPD thruster using water propellant | IEPC-2022-477.pdf |
| Marc | Galobardes-Esteban | A Hybrid Model for Beams of Droplets and Ions of Electrospray Thrusters | A Hybrid Model for Beams of Droplets and Ions of Electrospray Thrusters.pdf A Hybrid Model for Beams of Droplets and Ions of Electrospray Thrusters_9992.pdf |
| ian | johnson | PPE Electric Propulsion Advancing to CDR: 12kW String | IEPC-2022-467 PPE Electric Propulsion Advancing to CDR 12kW String.pdf |
| Dan | Lev | 96 kN-sec Endurance Test of the R-200 Low Power Hall Thruster | 96 kN-sec Endurance Test of the R-200 Low Power Hall Thruster - Paper - IEPC2022.pdf |
| Dan | Lev | 96 kN-sec Endurance Test of the R-200 Low Power Hall Thruster | 96 kN-sec Endurance Test of the R-200 Low Power Hall Thruster - Paper - IEPC2022.pdf |
| Rafid | Bendimerad | Molecular Dynamics Studies of Ionic Liquid-Surface Interactions for Electrospray Thrusters | IEPC_2022_229_Bendimerad_Petro.pdf |
| Dan | Lev | Integration Test of the R-800 Low Power Hall Thruster Electric Propulsion System | Integration Test of the R-800 Low Power Hall Thruster Electric Propulsion System - Paper.pdf |
| Dan | Lev | Extension of the Operation Envelope of the R-200 Low Power Hall Thruster | Extension of the Operation Envelope of the R-200 Low Power Hall Thruster - Paper.pdf |
| Jamal | Olantuji | Toward On-Orbit Demonstration of a High Temperature Superconducting AF-MPD Thruster | IEPC2022_Toward_On_Orbit_Demonstration_of_a_High_Temperature_Superconducting_AF_MPD_Thruster_AsSubmitted.pdf |
| Willy | Stark | Concept and design of a Hall-effect thruster with integrated thrust vector control | Concept and design of a Hall-effect thruster with integrated thrust vector control.pdf |
| Olivier | DUCHEMIN | Plume Characterization and Influence of Background Pressure on the PPS®5000 Hall thruster | Coduti - PPS®5000 plume charact and sensitivity to backpressure - IEPC-22-367.pdf |
| Matthew | Glascock | Performance and Capability Overview of the Halo Electric Propulsion System | IEPC2022_Paper_Halo EP System Performance_FINAL.pdf |
| Matthew | Glascock | Channel Erosion Measurements and Predictions in a 400 W Hall Thruster | IEPC2022_Paper_Erosion of Halo Channel_FINAL.pdf |
| Szymon | Dworski | Effects of Propellant Temperature on Fragmentation in the Plume of a Porous Electrospray Thruster | IEPC-2022-209_Dworski_Effects of Propellant Temperature on Fragmentation in the Plume of a Porous Electrospray Thruster.pdf |
| Richard | Hofer | Performance of a Conducting Wall, Magnetically Shielded Hall Thruster at 3000-s Specific Impulse
| H9C IEPC-2022-401 R03.pdf |
| John | Brooks | Identification of mode dynamics and mode coupling in a multi-orifice hollow cathode plume | 2022_Brooks_Identification_of_Mode_Dynamics_v6.pdf |
| Curtis | Graham | Characterization of a dual stage micro Hall thruster with a 1D
PIC-Fluid hybrid simulation | IEPC-2022-400.pdf |
| Albert | Cisquella Serra | Lifetime and performance enhancement of silicon-based microfabricated electrospray thrusters | IEPC_2022_AlbertCisquellaSerra.pdf |
| Florian | Prochnow | Development of a Novel Passively Ionizing Air-Breathing Electric Propulsion Concept for Low Earth Orbits | IEPC-420-Novel_ABEP_concept.pdf |
| Austen | Thomas | Development and Initial Testing of a Plasma Confinement Cage | Development and Initial Testing of a Plasma Confinement Cage.pdf |
| Austen | Thomas | Performance Evaluation of an Electron Cyclotron Resonance Thruster | Performance Evaluation of an Electron Cyclotron Resonance Thruster.pdf |
| Florian | Prochnow | Development of a low earth orbit plasma simulator | IEPC-2022-589-LEO_plasma_simulator.pdf |
| Mario | Merino | Preliminary model of the plasma expansion in a magnetic arch thruster (and overview of the first prototype) | magnetic_arch_model_IEPC2022 (2).pdf |
| Jordan | Hsieh | Cylindrical Magnetic Quadrupole Plasma Thruster with a Filament Emitter Hollow Cathode | Cylindrical Magnetic Quadrupole Plasma Thruster with a Filament Emitter Hollow Cathode.pdf |
| Jordan | Hsieh | LaB6 Hollow Cathode Design and Development for Magnetic Octupole Plasma Thruster | LaB6 Hollow Cathode Design and Development for Magnetic Octupole Plasma Thruster.pdf |
| Jordan | Hsieh | LaB6 Hollow Cathode Design and Development for Magnetic Octupole Plasma Thruster | LaB6 Hollow Cathode Design and Development for Magnetic Octupole Plasma Thruster.pdf |
| Jordan | Hsieh | Hectowatt-Class Stationary Front Hall Thruster for Future Space Missions | Hectowatt-Class Stationary Front Hall Thruster for Future Space Missions.pdf |
| Enrique | Bello-Benítez | Two-dimensional kinetic simulation of electrostatic instabilities in a Hall plasma. | bell22_compressed.pdf |
| David | Krejci | Verification of the thrust vectoring capability of a FEEP thruster using spatial plasma plume diagnostic measurements | AR³ beam vectoring verification_final.pdf |
| David | Krejci | The first 100 FEEP propulsion systems in space: A statistical view and lessons learnt of 4 years of ENPULSION | Manuscript_ENP_100thruster.pdf |
| Jaume | Navarro Cavalle | Direct thrust measurements of the HIPATIA system thruster unit | IEPC_2022_GOMEZ.pdf |
| Mohamed | Ahmed | A Novel Diamond-Based Plasma Neutraliser | IEPC_2022_109.pdf |
| John | Foster | A Review of Facility Effects on Gridded Ion Thruster Operation and Performance | Ion thruster facility effects Foster final upload.pdf |
| David | Villegas | Impact of the propellant temperature on the performance of externally wetted electrospray thrusters | IEPC_2022_212.pdf |
| Patrick | Crandall | Air-Breathing Electric Propulsion Spacecraft Performance and Aerodynamic Maneuverability | Crandall_IEPC_2022 V1.pdf |
| Konstantinos | Papavramidis | Development Activities for the RF Helicon-based Plasma Thruster: Thrust Measurement and B-dot Probe Set-up | IEPC-2022-432_Papavramidis_IPT_Characterization.pdf |
| Jesús Manuel | Muñoz Tejeda | Computational modelling and Radiofrequency Excitation studies of a Water Electrolysis Hall Effect Thruster | Paper_WETHET_RF_modelling_IEPC_2022_v2.pdf |
| Alexandre | GUGLIELMI | Low power C12A7 hollow cathode characterization for small Hall thrusters | IEPC_2022_Guglielmi.pdf |
| Renan | Almeida de souza | Parametric study of the helicon plasma thruster experiment at
the University of Brasilia via numerical simulations | IEPC_2022_HPT_415.pdf |
| Matteo | Clark | Evaluating the Performance of Hybrid Vehicles between LEO, Cislunar Space, and Mars | IEPC-2022-456-compressed.pdf |
| Jesús | Perales-Díaz | Hybrid 2D plasma simulations of a 20kW-class magnetically shielded Hall effect thruster | IEPC_322.pdf |
| Jonathan | Skalden | An Overview of Recent Thrust Balance Developments at the Institute of Space Systems | IEPC-2022-167_Skalden_An Overview of Recent Thrust Balance Developments at the Institute of Space Systems.pdf |
| Anthony | Adduci | Characterization of Ionic Liquid Multimode Propellant Operating in a Porous Glass Electrospray Thruster | IEPC_2022_Manuscript_draft2.pdf |
| Gordon | McCulloh | Modeling and Testing a Compact Planar Inductive Pulsed Plasma Thruster in a Finite Neutral Backfill | IEPC_2022_563.pdf |
| Adnan | Mansour | Development of Axisymmetric Full-Fluid Moment for Low Temperature Plasmas | IEPC_Adnan_RZ_Final.pdf |
| Chen | Cui | Two-dimensional Vlasov Simulations of Electric Propulsion
Plume | IEPC-2022-242_Vlasov-Cui.pdf |
| Christopher | Lyne | A Low-Cost Linear Time-of-Flight Mass Spectrometer for Electrospray Propulsion Diagnostics | IEPC 2022 Paper Final.pdf |
| Jacob | Simmonds | Alteration of Ion Plume by Central Segmented Electrode in a Wall-less Hall Thruster | 22_6_18 Segmented Central Electrode Thruster.pdf |
| Adrián | Domínguez-Vázquez | Analysis of the electron downstream boundary conditions in a 2D hybrid code for Hall thrusters | IEPC-2022-338.pdf |
| Christopher | Sercel | Inductive Probe Measurements during Plasmoid Acceleration in an RMF Thruster | IEPC22_Sercel_withCR-compressed.pdf |
| Naoki | Tsunezawa | Numerical Study of Plasma Transport Driven by the Wavy-microstructure in a Hall-effect Thruster | IEPC-2022-355_Tsunezawa_Numerical Study of Plasma Transport Driven by the Wavy-microstructure in a Hall-effect Thruster.pdf |
| Franklin | Chang Diaz | Recent Progress on the VASIMR Engine | VASIMR_IEPC2022_525 Paper final.pdf |
| Thibault | Hallouin | Far-field plume properties of a cluster of 100 W-class permanent magnets Hall thrusters | Far-field plume properties of a cluster of 100 W-class permanent magnets Hall thrusters - T. Hallouin.pdf |
| Yung-An | Chan | Experimental Verification of an Electromagnetic Nozzle on Plasma Confinement and Acceleration | 20220519 EMN verification IEPC-2022-428.pdf |
| Thibault | Hallouin | Far-field plume properties of a cluster of 100 W-class permanent magnets Hall thrusters | Far-field plume properties of a cluster of 100 W-class permanent magnets Hall thrusters - T. Hallouin.pdf |
| Pedro | Jimenez | Numerical Simulations of the Discharge and the Plasma-wave Interaction in a Helicon Plasma Thruster | IEPC_2022_Pedro.pdf |
| Jens | Schmidt | The DEEP Thruster Concept | IEPC_2022_DEEP.pdf |
| Huang | Yi-Lung | Development of a low power cylindrical Hall thruster with tungsten filament cathode | IEPC-2022-353 Development of a low power cylindrical Hall thruster with tungsten filament cathode.pdf |
| HUANG | PING-HAN | Triple Langmuir Probe Diagnostics for Vacuum Arc Thruster with Multilayer Electrodes | IEPC-2022-538.pdf |
| Masahiro | Nonaka | Research about Rotating Spoke and Electron Anomalous Transport in TAL | IEPC2022_TEXT_CC.pdf |
| Louis | Dandaleix | Pioneering EP Fluidic Feed Systems from Constellation Success Stories | IEPC-2022-584.pdf |
| Alexander | Behnke | Magnetic Field and Current Density Measurements in the Plume of the Steady State AF-MPD Thruster SX3 | IEPC-2022-475_Behnke_Magnetic.pdf |
| Ashley | Hallock | Analysis of Plume-Spacecraft Interaction for the Innosat Platform | IEPC_2022_459.pdf |
| Alberto | Marín-Cebrián | Effect of the magnetic field angle on Hall thruster plasma-wall interaction | Marin_IEPC2022.pdf |
| Alessandro | Ferreri | Double layer charging in electrospray thrusters for small satellites | Ferreri_Stark_Paper_Final.pdf |
| Stephen | Samples | PIC Predictions of the EP3 Chamber Pumping Speed | Samples_IEPC-2022-591_EP3PICSim_v2.pdf |
| Daniel | Herman | Development and Qualification Status of the Electric Propulsion Systems for the NASA PPE Mission and Gateway Program | 20220531 PPE IPS IEPC-2022-465 Paper Review v4.pdf |
| Stephen | Samples | PIC Predictions of the EP3 Chamber
Pumping Speed | Samples_IEPC-2022-591_EP3PICSim.pdf |
| Bruno | MORICONI | Hall Thruster ExoMGTM-micro, ExoMGTM-nano and low current cathode development at Exotrail: cyclic life testing results | IEPC 2022-291.pdf |
| Yoshiki | Matsunaga | Development of a Wide-Output Range Power Processing Unit for 6-kW Hall Thruster | IEPC-2022-547_Development of a Wide-Output Range Power Processing Unit for 6-kW Hall Thruster.pdf |
| Philipp | Becke | Hollow Cathode Testing with alternative Propellants | IEPC-2022_125.pdf |
| Nils Gerrit | Kottke | Iodine Hollow Cathode Development and Testing with Alternative Emitters | IEPC_120.pdf |
| Ved | Mukherjee | Investigation on the Nature of Electron Drift Instability with 2D PIC-MCC Simulations | IEPC-2022-373_Mukherjee_Investigation on the Nature of Electron Drift Instability with 2D-PIC-MCC Simulations.pdf |
| Hans | Leiter | Gridded Ion Engine Standardized Electric Propulsion Platforms - GIESEPP & GIESEPP-MP: Results and Outlook | IEPC-2022-280_AGG_Leiter_Lauer_Valles.pdf |
| Ninad | Joshi | Particle in cell simulation for large Radio-Frequency Ion thrusters using 3D cylindrical coordinate system | Iepc_joshi.pdf |
| Stéphane | Mazouffre | Study of Faraday cup designs suiting multiple electric propulsion
systems. | IEPC-2022-164.pdf |
| Giulia | Becatti | Recent Advances in Hall Thruster Scaling Methodology | IEPC-2022-315.pdf |
| Nabil | Souhair | Analysis of different numerical approaches for the simulation of a Helicon Plasma Thruster | IEPC2022_SOUHAIR_495.pdf |
| Jeffrey | Asher | The Impact of Manufacturing Defects on Ionic Electrospray Beam Emission | Asher_IEPC_Defects_Template.pdf |
| Jeffrey | Asher | Ionic Electrospray Thruster Plume: Comparisons between Simulation and Measurement | Asher_IEPC_SimCompare_Template.pdf |
| Henry | Huh | Numerical Simulation of Cone-Jet and Emission Processes for Electrospray Thrusters | IEPC_2022_211_HenryHuh.pdf |
| Peter | Wright | Characterization of a Porous Tungsten Electrospray Emitter | PoWEE-v1.pdf |
| Kuo-Yi | Chen | Direct thrust measurement results of a compact hexapole ECR thruster | Direct thrust measurement results of a compact hexapole ECR thruster.pdf |
| Norman | Gondol | Development and Testing of a Low-Current
Applied-Field Magnetoplasmadynamic Thruster with a Rectangular Discharge Channel | IEPC_2022_473.pdf |
| Jesús Manuel | Muñoz Tejeda | Computational modelling and Radiofrequency Excitation studies of a Water Electrolysis Hall Effect Thruster | Paper_WETHET_RF_modelling_IEPC_2022.pdf |
| Yusuke | Yamashita | Kinetic Effects of Cross-Field Plasma Discharge in Hall Effect Thrusters Using 1D Axial Particle-in-Cell Monte Carlo Collision | IEPC_2022_351.pdf |
| Jhéssica | Luz | Particle-in-cell Numerical Simulations of a Pulsed Plasma Thruster | IEPC_2022_Artigo_PPT (7).pdf |
| MONA | GOLBABAEI-ASL | SIMULATION OF FLOW PHYSICS IN A MICROWAVE ELECTROTHERMAL THRUSTER | Manuscript_IEPC2022_493.pdf |
| Ian | Johnson | Lunar Gateway Power and Propulsion Element (PPE): Electric Thruster Plume Analysis | IEPC-2022-466.pdf |
| Nabil | Souhair | Simulation and modelling of an iodine fed Helicon Plasma Thruster | IEPC2022_Souhair.pdf |
| Daniele | Frollani | An Analysis of Propulsion Requirements for Active Debris Removal Missions | IEPC-2022-469 - D.Frollani - An Analysis of Propulsion Requirements for Active Debris Removal Missions.pdf |
| Kazuma | Emoto | Kinetic Analysis of Thrust Generation and Axial Momentum Gain in Magnetic Nozzle Acceleration | main.pdf |
| Shun | Imai | Optical Observations of LaB6 Hollow Cathode Plasmas for the Cathode Wear Analysis | IEPC2022_imai_submit.pdf |
| Raul | Ramos | Degradation mitigation strategies in electrospray thrusters based on chemically robust thin films | IEPC_2022_220_RaulRamos.pdf |
| Youngho | Kim | Performance comparison of xenon and krypton discharges in a 300 W-class Hall thruster | IEPC-2022-336_YounghoKim_Final_Submit.pdf |
| Jörn | Krenzer | CT-imaging in Electrostatic Thruster Ion-Optics | IEPC-2022-260.pdf |
| Fabian | Plaza | Excellent performance of a C12A7:e- cold cathode based on charge coupling techniques | IEPC_2022_136.pdf |
| Braden | Oh | Design, Fabrication, and Testing of an Undergraduate Hall Effect Thruster | IEPC_2022-293.pdf |
| Adnan | Mansour | Full-Fluid Moment Modeling of Rotating Spokes | IEPC_Adnan_RotatingSpokes_final.pdf |
| Mohamed | Ahmed | A Novel Diamond-Based Plasma Neutraliser | IEPC_2022_109.pdf |
| Edgar | Choueiri | Scaling of the Ionization Fraction in a Self-Field MPD Thruster | IEPC-2022-605_Choueiri_di_Lauro_fv2.pdf |
| Edwin | Beller | Analysis of Class-E Power Amplifiers as Radio-Frequency Generators | IEPC-2022-545_Beller_Analysis_of_Class-E_Power_Amplifiers_as_Radio-Frequency_Generators.pdf |
| Thomas | Kerber | Effects of Extractor Axial Position on Porous Ionic Liquid Ion Source Performance | IEPC_2022_194.pdf |
| Lukas | Pietzonka | Extraction of velocity distribution functions of neutrals and ions from laser-induced fluorescence spectra measured in the discharge chamber of a radiofrequency-driven xenon ion source | IEPC-2022-249_Pietzonka_VDF-extraction-LIF-Xe-RF-ion-source.pdf |
| Benjamin | Esteves | Experimental and numerical investigation of a gridded ion thruster running with different propellants (I2, Xe, Kr, Ar) | IEPC_2022_Esteves_Benjamin_proceeding.pdf |
| Kurt | Polzin | Strategy for Developing Technologies for Megawatt-class Nuclear Electric Propulsion Systems | SNP NEP paper - IEPC-2022-155 final.pdf |
| Jeremy | John | NEXT-C Ion Propulsion System Operations on the DART Mission | IEPC-2022-281.pdf |
| Steve | Snyder | Electric Propulsion for the Psyche Mission:
System-Level Integration and Test | IEPC 2022 EP for Psyche Final.pdf |
| Jacob | Knott | Qualification of the BET-MAX Electrospray
Propulsion System | IEPC-2022-196 Demmons Final.pdf |
| Joshua | Tompkins | Development of Isotopic Carbon Labeling Diagnostic for Electric Propulsion | IEPC-2022-163 - Development of Isotopic Carbon Labeling Diagnostic for Electric Propulsion.pdf |
| James | Szabo | High Speed Plasma Probe and Electronics Suite | IEPC-2022-168 - Szabo Final.pdf |
| James | Szabo | Fullerene Propellant Hall Thruster Experiment | IEPC 2022-403 Szabo V3.pdf |
| Tarek | Ben Slimane | Comparison of PIC simulation results of Hall Effect Thrusters against OES measurement using a xenon Collisional Radiative Model | IEPC_Paper.pdf |
| James | Szabo | High Speed Plasma Probe and Electronics Suite | IEPC-2022-168 - Szabo Final.pdf |
| Antonio | Gurciullo | Examination of C12A7 electride work function and surface composition by means of XPS, UPS and thermionic emission measurements | IEPC-2022-104_Gurciullo.pdf |
| Todd | Bailey | Apollo ACE: Rapid Design, Qualification, and Testing of a 94% Efficient, Radiation Tolerant PPU for Commercial Hall-effect Thrusters | Apollo ACE PPU for Commercial Hall Effect Thrusters IEPC-2022-548.pdf |
| James | Szabo | Fullerene Propellant Hall Thruster Experiment | IEPC 2022-403 Szabo V3.pdf |
| Pierre-Yves | Taunay | Quadrature-based moment methods applied to ExB discharges | taunay-mueller_qbmm-ExB_iepc-2022-309.pdf |
| Paul-Quentin | Elias | Two-dimensional Kinetic modeling of the power deposition in a coaxial ECR thruster | Elias_v2.pdf |
| Michael | Tsay | 3,500-Hour Wear Test Result of BIT-3 RF Ion Propulsion System | IEPC-2022-255 v5.pdf |
| Michael | Tsay | Volume Production of Gen-2 Iodine BIT-3 Ion Propulsion System | IEPC-2022-267 v7.pdf |
| Hans | Leiter | Gridded Ion Engine Standardized Electric Propulsion Platforms - GIESEPP & GIESEPP-MP: Results and Outlook | IEPC-2022-280_AGG_Leiter_Lauer_Valles.pdf |
| Giulia | Becatti | TANDEM: a High Power, Magnetically Shielded Hall Thruster with a Nested Configuration | IEPC2022-311_Full Paper.pdf |
| Laurent | Garrigues | Hybrid numerical modeling of a 50W-Class Annular Hall Thruster | IEPC_2022_364_paper.pdf |
| Hans | Leiter | Recent Development of the RIT-μX Thruster and System | 2022-252-RIT-uX.pdf |
| Kento | Shirasu | Far-Field Plume Diagnostics of Low-Power Water Hall Thruster | IEPC2022_shirasu_rev1.1_comp.pdf |
| Aaron | Knoll | Insights from reduced-order particle-in-cell simulations into the plasma behavior in a high-power magnetically shielded Hall thruster | Insights from HT20k PIC simulations_IEPC-2022-306.pdf |
| Yoshiki | Matsunaga | Development of a Wide-Output Range Power Processing Unit for 6-kW Hall Thruster | IEPC-2022-547_Development of a Wide-Output Range Power Processing Unit for 6-kW Hall Thruster.pdf |
| Jaehong | Park | Deep Learning-based Electron Anomalous Transport Prediction in Hall Thrusters with LIF Measurements | IEPC-2022-335_JaehongPark_Final.pdf |
| Luca | Leporini | The effect of background neutrals and vacuum chamber on
performance and plasma characteristics on Hall thrusters | The_effect_of_background_neutrals_and_vacuum_chamber_on_performance_and_plasma_characteristics_on_Hall_thrusters. IEPC-2022-320. Final.pdf |
| Vlad | Hruby | Air Breathing Hall Effect Thruster Design Studies and Experiments
| IEPC 2022-446 Hruby.pdf |
| Chris R. | Acheson | Computational modelling of superconducting applied-field magnetoplasmadynamic thrusters: how does magnetic shielding influence thrust? | IEPC_2022_474.pdf |
| Tim | Gray | Emitter Surface Temperature Measurements of a 25-A class Hollow Cathode | IEPC-2022-140_Hall_Cathode-emitter-temperature.pdf |
| Séverin | Astruc | Thrust measurement using a plasma pressure probe immersed in the plume | IEPC2022_paper_v4.pdf |
| Fynn | Kunze | 3D micro printed internally wetted capillary type electrospray emitters on the single micrometer scale | IEPC_2022_175_Kunze.pdf |
| Filippo | Cichocki | Towards full three-dimensional modeling of Hall thruster internal channel discharges | IEPC2022_340_Cichocki.pdf |
| Junichiro | Aoyagi | Effect of Electrodes Dimensions of 2 J Electromagnetic Pulsed Plasma Thruster for Small Satellites | 220617IEPC-2022-567-aoyagi.pdf |
| Kazuma | Ueno | Experiment of a 2 cm-class Self-Field MPD Thruster in Laboratory | 2022-IEPC-paper_提出版.pdf |
| Paul-Quentin | Elias | Two-dimensional Kinetic modeling of the power deposition in a coaxial ECR thruster | Elias_v2.pdf |
| Konstantin | Keil | Modeling of erosion processes in gridded ion engines in combination with a global model for radio-frequency ion thrusters | IEPC-2022-259-KK-2022-06-17.pdf |
| Julien | Vaudolon | Development of a pointing mechanism for low power Hall thrusters | Vaudolon_IEPC-2022-588_Gimbal.pdf |
| Kohei | Watabe | A Photon-driven Microthruster through Interaction of Ultraviolet Light-emitting Diodes and Solid Polymers | IEPC_Watabe_Full_Paper.pdf |
| Ikkoh | Funaki | The Updated R&D Status of 6-kW-class Hall-Thrusters at JAXA | IEPC2022_Paper_Funaki_Draft.pdf |
| Romain | PIOCH | Estimation of the thrust of an ECR thuster | IEPC-2022-485.pdf |
| Mirko | Magarotto | Simulation of a magnetized plasma plume with a 3D fully kinetic PIC approach | IEPC-2022-494_DiFede.pdf |
| Federico | Boni | Plasma expansion and electron properties in a magnetic nozzle electrode-less thruster | IEPC_2022_527_BONIfederico.pdf |
| Xiang | MA | Numerical Simulation of Plasma Flow Field in RF Plasma Thruster with Magnetic Cusp | IEPC2022_manuscript_final.pdf |
| Malina | Reitemeyer | C12A7:2e- neutralizer operation with alternative propellants | Paper.pdf |
| Samuel | Araki | Current Capabilities of AFRL’s Spacecraft Simulation Tool | Araki_IEPC2022_Submitted.pdf |
| Wai Hong Ronald | Chan | Enabling direct kinetic simulation of dense plasma plume expansion for laser ablation plasma thrusters | IEPC_2022_Template_v5.pdf |
| Samuel | Araki | Current Capabilities of AFRL’s Spacecraft Simulation Tool | Araki_IEPC2022_Submitted.pdf |
| Daigo | Takasaki | Performance Measurements of a Propellant-free LaB6 Thermionic Cathode | 220617_IEPC2022_paper_Takasaki_rev1.pdf |
| Alessandro | Ferreri | Double layer charging in electrospray thrusters for small satellites | Ferreri_Stark_Paper_Final.pdf |
| John | Brophy | Non-Nuclear Exploration of the Solar System | Non-Nuclear Exploration of the Solar System FINAL.pdf |
| Marco | Magnani | Modeling of pure ionic emission from a liquid meniscus | IEPC-2022-238_Magnani_Gamero.pdf |
| Vlad-George | Tirila | Performance Investigation of Zinc Propellant in sub kW class Hall Thrusters | IEPC_2022_Performance_Investigation_of_Zinc_Propellant_in_sub_kW_class_Hall_Thrusters-284.pdf |
| Dan | Goebel | High Current Hollow Cathodes for High Power Electric Thrusters | Goebel IEPC-2022-101_compressed.pdf |
| Spemann | Daniel | IonJet: Development of a cost-efficient gridded ion thruster propulsion system for smallsats | IEPC-2022-246_Scholze_IonJet.pdf |
| Tim | Gray | Effects of Environmental Exposure on Barium Oxide Cathode Operation | IEPC-2022-139_Gray_Cathode-exposure.pdf |
| Antoine | Boré | Improved Control Architecture and Strategy for Iodine Ion Thruster following In-Orbit Demonstration and System-Level Radiation Testing | IEPC2022-244.pdf |
| Naomi | de Mejanes | Simulation of the interaction between electric thrusters and communication system integrated on a small spacecraft | IEPC_2022_Template_1_Copy_.pdf |
| laurent | garrigues | Generation of multiply charged ions in the context of a vacuum arc thruster | IEPC22-Paper_519.pdf |
| Antonella | Caldarelli | Radial Characterization of an Ion Beam in a Deflected Magnetic Nozzle | Caldarelli et al_IEPC-2022-505_Radial Characterization of an Ion Beam in a Deflected Magnetic Nozzle.pdf |
| Félicien | Filleul | Ion Magnetization Effects on Plasma Generation in a Magnetic Nozzle RF Device | FFilleul_IEPC-2022-501.pdf |
| Yoshinori | Takao | High-Current-Density Ionic Liquid Electrospray Thruster with a Nano-Capillary Emitter Array | IEPC-2022-192.pdf |
| Ethan | Dale | Design of a flight EMI diagnostic | etd-iepc22.pdf |
| Kuo-Yi | Chen | A new concept of expanding the ECR resonance surface for
ECR thruster | A new concept of expanding the ECR resonance surface for ECR thruster.pdf |
| RYAN | CONVERSANO | 13,000 h Wear Test of a Heaterless Low-Current Lanthanum Hexaboride Hollow Cathode | 220615 - ASTRAEUS Cathode LDWT - SUBMIT.pdf |
| Vernon | Chaplin | Preparation for Wave Measurements Using LIF, and Comparison of Ion Velocities in Cathode Testing versus Hall Thruster Operation | Chaplin_et_al_HERMeS_cathode_LIF_IEPC2022_v2_with_copyright.pdf |
| TREHET | ERIC | Airbus DS Power Processing Units new developments for HET, GIT and technologies status | 546-IEPC_MARCOS_TREHET.pdf |
| Tejaswi | Shinde | Simulation Study of Hall Thruster and their Effects on the Spacecraft at 1 AU and 0.093 AU | Shinde_Tejaswi_23June22_324.pdf |
| David | Oh | Preparation for Launch of the Psyche Spacecraft for NASA's Discovery Program | IEPC-2022-452 Preparation for Launch of Psyche final.pdf |
| Alejandro | Lopez Ortega | Validation of Hall2De simulations with anomalous ion heating in the pole region of a magnetically shielded Hall thruster | 2022 IEPC 2022-299.pdf |
| Dr. Stefan | Weis | HEMPT – Electric Propulsion strategic positioning for constellations
| IEPC-2022-602_HEMPT_Strategic Positioning and Achievements.pdf |
| Kuo-Yi | Chen | Direct thrust measurement results of a compact hexapole ECR thruster | Direct thrust measurement results of a compact hexapole ECR thruster.pdf |
| Feng | Tian | Emission Performance Study on Vacuum Arc Thruster Plasma Contactor | IEPC-2022-129.pdf |
| Maciej | Jakubczak | Experimental Optimization of Small Krypton Hall Thruster for Operation at High Voltage | IEPC-2022-360.pdf |
| Marcel | Georgin | Inductively Coupled Plasma Cathodes Enabling In-situ Resource Utilization for Hall Thrusters | Inductively Plasma Cathode For Insitu Resource Utilization_v7.pdf |
| John | Yim | Differential yields and uncertainty assessments for electric propulsion plume impingement sputter redeposition contamination
| IEPC-2022-580.pdf |
| Wensheng | Huang | The Side Plume of Magnetically Shielded Hall Thrusters | IEPC-2022-402 MS Side Plume v05.pdf |
| John | Brophy | Non-Nuclear Exploration of the Solar System | Non-Nuclear Exploration of the Solar System FINAL.pdf |
| Luca | Leporini | Theoretical and numerical analysis of the Breathing instability in Hall thrusters | Theoretical and numerical analysis of the Breathing instability in Hall thrusters.pdf |
| Daniela | Pedrini | Development tests of SITAEL's high-power Hall propulsion system | IEPC_2022 20kW and 5kW_final.pdf |
| Felicien | Filleul | Ion Magnetization Effects on Plasma Generation in a Magnetic Nozzle RF Device | FFilleul_IEPC-2022-505.pdf |
| Gabriel | Benavides | High-Propellant Throughput Sub-kW Electric Propulsion System for Deep Space Science and Exploration | 2022 IEPC - Benavides - Final.pdf |
| Giovanni | Lenguito | Maxar Electric Propulsion String Development: 6kW 300/600V Dual Mode at a Tipping Point | IEPC-2022-153.pdf |
| Zijing | Zhao | Research on State Characterization Method of Conductive Film for Micro-cathode Arc Thruster | Research on State Characterization Method of Conductive Film for Micro-cathode Arc Thruster.pdf |
| Natalia | Franco Rodríguez | Activities of the Strategic Research Cluster on Space Electric Propulsion | IEPC-2022-449 - EPIC paper.pdf |
| Nina Sarah | Mühlich | Highly focused ion beam of a FEEP thruster generated with a compact electrostatic lens system | 2022-06-13_IEPC-2022-189_Paper_Muehlich.pdf |
| Kentaro | Hara | Quasi-1D Fluid Model for Hybrid Chemical-Plasma Propulsion Systems | IEPC-2022-441.pdf |
| Ved | Mukherjee | Investigation on the Nature of Electron Drift Instability with 2D-PIC-MCC Simulations | IEPC-2022-373_Mukherjee_Investigation on the Nature of Electron Drift Instability with 2D-PIC-MCC Simulations.pdf |
| Yannik | Rover | Semi-anechoic chamber for EMC tests of EP thrusters | IEPC-2022-240_Rover.pdf |
| Matthew | Feldman | Basic Analysis of an Air Breathing Electric Propulsion Concept | IEPC-2022-468_Feldman_BasicAnalysisABEP.pdf |
| Keita | Nishii | Numerical Simulation of Carbon Sputtering for Electric Propulsion in the Ground Facility | Numerical_tracking_of_Sputtered_Carbon_during_Ground_Based_Testing_of_Hall_Effect_Thruster.pdf |
| Jason | Frieman | This material is declared a work of the U.S. Government and is not subject to copyright protection in the United States.
Extended Wear Testing of the 12-kW Advanced Electric Propulsion System Engineering Test Unit Hall Thruster | ETU2 PPE Wear Test Paper_v6.pdf |
| Alfio E. | Vinci | Probing xenon atoms and ions velocity in the magnetic nozzle of a helicon plasma thruster | 2022_IEPC_LIFinMN.pdf |
| Giulia | Becatti | Hollow Cathodes Development for Alternative Propellants Electric Propulsion Systems | IEPC2022-112.pdf |
| Kuo-Yi | Chen | Research on reducing the divergence angle of plasma plume
by magnetic mirror for the ECR thruster | Research on reducing the divergence angle of plasma plume by magnetic mirror for the ECR thruster.pdf |
| Daniel | Zschätzsch | Design and Operation of a Hollow Cathode with a C12A7:2e- Insert in Comparison with a LaB6 Insert | IEPC-2022-102_HollowCathode_Daniel_Zschaetzsch.pdf |
| Felix | Kiefer | Reverberation chamber for electromagnetic compatibility testing of electric thrusters | IEPC-2022-257_Kiefer.pdf |
| Azer | Yalin | Rate-Equation Modeling of Xe and Kr TALIF for Electric Propulsion Applications | Xe Kr TALIF paper - v6 - IEPC - v2.pdf |
| Azer | Yalin | Rate-Equation Modeling of Xe and Kr TALIF for Electric Propulsion Applications | Xe Kr TALIF paper - v6 - IEPC - v2.pdf |
| Yoshinori | Nakayama | Propellant Flow Vector Measurement within a Vacuum Chamber with Three Types of Rarefied Flow Detectors | iepc_2022_158.pdf |
| Yannik | Rover | Semi-anechoic chamber for EMC tests of EP thrusters | 2022_06_10 - SAC for EMC tests of EP thrusters.pdf |
| Charles N. | Ryan | Development of Porous Emitter Electrospray Thruster Using Advanced Manufacturing Processes | IEPC-2022-603.pdf |
| Andrew | Walsten | Density and Temperature Measurements of a Microwave Plasma Source | Walsten_IEPC2022_submit.pdf |
| Dibyesh | Satpathy | Performance Investigation of a Thruster with Anode Layer based on Anode Temperature Change | IEPC-2022-332-Dibyesh_Satpathy.pdf |
| Ryo | Minematsu | Langmuir probe diagnostics in a water microwave discharge neutralizer | IEPC-2022-274.pdf |
| Charles N. | Ryan | Emission Characterization of Porous Electrospray Thrusters with Actively Controlled Flow Rate | IEPC-2022-191_PressureV2.pdf |
| Daigo | Takasaki | Performance Measurements of a Propellant-Free LaB6 Thermionic Cathode | 220608_IEPC2022_paper_Takasaki_rev0_submit.pdf |
| Jens | Schmidt | The DEEP Thruster Concept | IEPC_Paper_V1.pdf |
| Takuya | Koiso | Electron measurement in microwave cathode plume by incoherent Thomson scattering measurement | IEPC_2022_110_Koiso.pdf |
| Charles N. | Ryan | Emission Characterization of Porous Electrospray Thrusters with Actively Controlled Flow Rate | IEPC-2022-191_Pressure.pdf |
| Francesco | Battista | MSVC Recent developments: a research facility devoted to Low Power Electric Thrusters
operating at CIRA | doc2.pdf |
| Charles N. | Ryan | Plume Study of an Electrospray Thruster Using a HAN-Based Dual-Mode Ionic Liquid Propellant | IEPC-2022-190_FAM.pdf |
| Skalden | Jonathan | In-orbit testing of the coaxial pulsed plasma thruster PETRUS on GreenCube | IEPC_2022_PETRUS.pdf |
| Thomas | Underwood | Air Breathing Dual Mode Plasma Thruster | IEPC-2022-438_Underwood.pdf |
| Thomas | Underwood | Engineering Hydromagnetic Stability in Pulsed Plasma Thrusters Using Shear Flows | IEPC-2022-568_Underwood.pdf |
| Daniela | Pedrini | Development tests of SITAEL's high-power Hall propulsion system | IEPC_2022 20kW and 5kW_final.pdf |
| Daniela | Pedrini | Characterization of an Atmospheric Propellant-fed Hall Thruster as a VLEO Simulator | IEPC_2022_AETHER_final.pdf |
| Luca | Leporini | The effect of background neutrals and vacuum chamber on
performance and plasma characteristics on Hall thrusters | The_effect_of_background_neutrals_and_vacuum_chamber_on_performance_and_plasma_characteristics_on_Hall_thrusters_IEPC-2022-320.pdf |
| Omri | Hamo | Experimental Investigation of an External Discharge Very Low Power ( | IEPC-2022-296.pdf |
| Kuo-Yi | Chen | A new concept of expanding the ECR resonance surface for ECR thruster | A new concept of expanding the ECR resonance surface for ECR thruster.pdf |
| Ayumu | Nono | Study on Current Control of Microwave Discharge Neutralizer | IEPC_AyumuNono.pdf |
| Kento | Shirasu | Far-Field Plume Diagnostics of Low-Power Water Hall Thruster | IEPC_shirasu_rev0_comp.pdf |
| Xiang | MA | Numerical Simulation of Plasma Flow Field in RF Plasma Thruster with Magnetic Cusp | IEPC2022_manuscript0608.pdf |
| Kazuma | Ueno | Experiment of a 2 cm-class Self-Field MPD Thruster in Laboratory | 2022-IEPC-paper_1.pdf |
| Stéphane | Fraselle | Low Power PPU Activities at Thales Alenia Space in Belgium | LP-PPU-FPR-22023-01-00-IEPC2022-PPU_Low_Power.pdf |
| Kazuma | Ueno | Experiment of a 2 cm-class Self-Field MPD Thruster in Laboratory | 479.pdf |
| Takanobu | Muranaka | Estimation of Charging for HAYABUSA2 by Analysis of Surface Erosion in Ion Thruster Operation | 2022IEPC_IEPC_2022_275_paper.pdf |
| Yuya | Oshio | Temperature and plasma measurement around the emitter region of the hollow cathode | IEPC2022_oshio.pdf |
| Kento | Shirasu | Far-Field Plume Diagnostics of Low-Power Water Hall Thruster | IEPC_shirasu_rev0_comp.pdf |
| Eric | BOURGUIGNON | Medium Power PPU Activities
at Thales Alenia Space in Belgium | LP-PPU-FPR-22022-01-00.pdf |
| Masayuki | Takahashi | Plasma and Shock Wave Propagations on Microwave-driven In-tube Accelerator | IEPC-2022-429_Takahashi.pdf |
| Takato | Morishita | Internal and External Plasma Parameter Measurements of Visualizable Microwave Discharge Cathode by Laser Induced Fluorescence Spectroscopy | IEPC_morishita_8200.pdf |
| HUY | TRAN | Quantifying the Sputtering Response of Graphitic Structures with Molecular Dynamics Simulations | IEPC_HuyTran_r2.pdf |
| Denis | Zolotukhin | A two stage μCAT MPD thruster: toward millinewton thrust | Zolotukhin - IEPC-2022_paper.pdf |
| Antoine | BLANCHET | Ion jet properties in a high current - short duration vacuum arc thruster with and without magnetic field | IEPC-2022-508.pdf |
| Charles N. | Ryan | Development of Low Power Capacitively Coupled Radio Frequency Thruster | IEPC-2022-512_Development of Low Power CCRFT.pdf |
| Fan | Xu | Performance of a 600W Permanent Magnet Hall Thruster Discharge with Xe and Kr | IEPC-2022-330.pdf |
| Fan | Xu | Performance of a 600W Permanent Magnet Hall Thruster Discharge with Xe and Kr | IEPC-2022-330.pdf |
| Dan | Goebel | High Current Hollow Cathodes for High Power Electric Thrusters | Goebel IEPC-2022-101_compressed.pdf |
| Kiyoshi | Kinefuchi | Plume Mode Transition Caused by Surface Contamination of a LaB6 Hollow Cathode | paper_IEPC2022.pdf |
| Jörn | Krenzer | Collisional-radiative-model for the diagnostics of the neutralizer-free thrusters | IEPC-2022-506.pdf |
| Dr. Stefan | Weis | Results of Development and Testing of the HEMP
Thruster EV0 | IEPC-2022-601 Results EV0.pdf |
| Stéphane | Mazouffre | Spatial and temporal evolution of ion and electron parameters in the plasma jet of a 30W VAT | IEPC-2022-557_Michaux_Spatial_and_temporal_evolution_of_ion_and_electron_parameters_in_the_plasma_jet_of_a_30W_VAT.pdf |
| Peter J. | Klar | Plasma parameter measurement on a RIT-10 using empirical correlations between non-invasive optical emission spectroscopy and Langmuir diagnostics | IEPC_2022_253_Nauschuett_v1.2.pdf |
| Stéphane | Mazouffre | Spatial and temporal evolution of ion and electron parameters in the plasma jet of a 30W VAT | IEPC-2022-557_Michaux_Spatial_and_temporal_evolution_of_ion_and_electron_parameters_in_the_plasma_jet_of_a_30W_VAT.pdf |
| Feng | Tian | Emission Performance Study on Vacuum Arc Thruster Plasma Contactor | IEPC-2022-129.pdf |
| Feng | Tian | Emission Performance Study on Vacuum Arc Thruster Plasma Contactor | IEPC(IEPC-2022-129)-manuscript.pdf |
| Hirokazu | Tahara | Research and Development of Hall Thrusters for Transportation in the Solar System -Use of Carbon Dioxide, Methane, Ammonia, Hydrogen, Helium, Air and Ice/Water etc. in the Planets and Satellites to Propellants- | IEPC2022-282(Hall Thruster)Manuscript(Oral)(2022.5.30).pdf |
| Ryo | Ikemoto | Performance Characteristics of Direct-Current Arcjet Thrusters -Use of Carbon Dioxide, Methane, Ammonia, Hydrogen, Helium, Air and Ice/Water etc. in Planets and Satellites in the Solar System to Propellants- | IEPC2022-574(Arcjet Thruster)Manuscript(Oral)(2022.5.30).pdf |
| Ayano | Yoshida | Performance Characteristics of Steady-State MPD Thrusters with Permanent Magnets for Transportation in the Solar System -Use of Carbon Dioxide, Methane, Ammonia, Hydrogen, Helium, Air and Water/Ice etc. in the Planets and Satellites to Propellants- | IEPC2022-470(MPD Thruster)Manuscript(Oral)(2022.5.30)NewData.pdf |
| Takuma | Unegawa | Development of Osaka Sangyo University 1U Cubesat OSU-1 with 1J/1W Pulsed Plasma Thruster Systems for Powered Flight, and Development Features of Nano-Satellites and Probes OSU-2, 3 and 4 | IEPC2022-553(OSU Satellite R&D)Manuscript(Oral)(2022.5.30).pdf |
| Takuma | Unegawa | Research and Development of High-Total-Impulse Electrothermal Pulsed Plasma Thruster Systems -from Charging Electric Energy/Power: 1J/1W for 1U(1kg) Cubesats to 50J/50W for 50cm Cube (50kg) Nano-Satellites- | IEPC2022-552(PPT Experiment)(Oral)(2022.5.30).pdf |
| Aaron | Knoll | Reduced-order "pseudo-2D" particle-in-cell scheme for the prediction of multi-dimensional phenomena in Hall thrusters | Reduced-order PIC for HT modeling_IEPC-2022-305.pdf |
| Akihiro | Sasoh | Design Criteria for Electrostatic-Magnetic Hybrid Ion Acceleration | Proceeding--IEPC-2022-490--submitted.pdf |
| Zongqi | xu | Experimental research on low power Hall thruster performance | IEPC-2022-290.pdf |
| Zongqi | xu | Principle prototype design of iodine fueled Hall thruster for ground experiment | IEPC-2022-285.pdf |
| jose | Gonzalez del Amo | European Space Agency Activities in Electric Propulsion | iepc2022EPESA v2.pdf |
| Yusuke | Yamashita | Evaluation of excitation and ionization process by measuring ground-state neutral density and electron-impact spontaneous emission intensity in microwave discharge ion thruster
| IEPC_Yamashita_2022_final.pdf |
| Kristina | Lemmer | testing submission | Asif_receipt.pdf |
| Elaine | Petro | Testing the IEPC Paper Submission Site | MAE6540_Final_Project.pdf |