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  1. M. Keidar, Washington, USA. Flight Experiments and Recent Developments in Micro-Cathode Arc Thrusters for CubeSat Propulsion.

  2. D. Pedrini et.al., Pisa, Italy. Sitael Hollow Cathodes for Low-Power Hall Effect Thrusters.

  3. J. Schein et.al., Munich, Germany. Scalability and Reliability of Vacuum Arc Thrusters for CubeSat Missions.  

  4. L. Grimaud, S. Mazouffre et.al., Orleans, France. Hall Thruster Configurations for Nano/Micro-Satellite Propulsion.

  5. S. Xu et.al., Singapore / USA / Australia / China. The Development of Singapore’s Miniature Hall Effect Thruster and Rotamak for Space Propulsion.

  6. J. L. Rovey, Rolla, Missouri, USA. Multi-Mode Micropropulsion.

  7. Y. Raitses et.al., Princeton, USA. Surface Micro- and Nano-Architectured Materials for Plasma Micropropulsion.

  8. X. Liu, Beijing, China. Influence of Capacitor Setup on the Performance of Pulsed Plasma Thruster.

  9. L. Garrigues et.al., Université de Toulouse, France. Influence of Cathode Material on Vacuum Arc Thruster Perfomance.

  10. E. Ahedo, Madrid, Spain. Simulation Tools for Plasma Micro-Propulsion.

  11. C. Charles, The Australian National University, Australia. From Laboratory to Space with the Australian QB50 CubeSats.

  12. R. Boswell, The Australian National University, Australia. Development of the Electrothermal Pocket Rocket for CubeSats.

  13. K. Bazaka, Queensland University of Technology, Australia. Graphene-based light-powered propulsion: a possible alternative to solar sail.

  14. U. Cvelbar et. al., Jožef Stefan Institute, Ljubljana, Slovenia. Atmospheric Plasma Jets: The Effect of Electrode Materials.

  15. T. Henning et. al., Institute of Experimental Physics / Justus Liebig University, Germany. MEMS technology all-photopolymer electrospray emitters....

  16. D. Lev, Rafael Advanced Defense Systems Ltd, Israel. Hollow Cathode Neutralizer for Micro Electric Propulsion.

  17. S. Shinohara, Tokyo University of Agriculture and Technology, Japan. Development of Very Small, High-Density Helicon Source for Propulsion.

  18. M. Lim et. al., Singapore. Microcontroller Aided Actuation and Wireless Control for Diagnostics in a Large Scaled Space Environment Chamber. 

  19. F. Paganucci et. al., Università di Pisa, Italy. Alternative Propellants for Low Power Hall Effect Thrusters.

  20. A. Cervone et. al., Delft University of Technology, The Netherlands. MEMS Water Micro-Resistojets for CubeSats and PocketQubes.

  21. J. Fang, UTS, Australia. Plasma Enabled Fabrication and Applications of Nanometamaterials and Porous Alumina in Electric Propulsion.  

  22. I. Levchenko et. al., Singapore/Australia. Smart and Multifunctional Materials in Electric Propulsion and Cubesats.  

List of Accepted Abstracts

Click presentation title to open file in a separate window

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