Space micropropulsion systems for Cubesats and small satellites: from proximate targets to furthermost frontiers
Space micropropulsion systems for Cubesats and small satellites: from proximate targets to furthermost frontiers
Rapid evolution of miniaturized, automatic, robotized, function-centered devices has redefined space technology, bringing closer the realization of most ambitious interplanetary missions and intense near-Earth space exploration. Small unmanned satellites and probes are now being launched in hundreds at a time, resurrecting a dream of satellite constellations, i.e., wide, all-covering networks of small satellites capable of forming universal multifunctional, intelligent platforms for global communication, navigation, ubiquitous data mining, Earth observation, and many other functions, which was once doomed by the extraordinary cost of such systems. The ingression of novel nanostructured materials provided a solid base that enabled the advancement of these affordable systems in aspects of power, instrumentation, and communication. However, absence of efficient and reliable thrust systems with the capacity to support precise maneuvering of small satellites and CubeSats over long periods of deployment remains a real stumbling block both for the deployment of large satellite systems and for further exploration of deep space using a new generation of spacecraft. The last few years have seen tremendous global efforts to develop various miniaturized space thrusters, with great success stories. Yet, there are critical challenges that still face the space technology. These have been outlined at an inaugural International Workshop on Micropropulsion and Cubesats, MPCS-2017, a joint effort between Plasma Sources and Application Centre/Space Propulsion Centre (Singapore) and the Micropropulsion and Nanotechnology Lab, the G. Washington University (USA) devoted to miniaturized space propulsion systems, and hosted by CNR-Nanotec - P.Las.M.I. lab in Bari, Italy. This focused review aims to highlight the most promising developments reported at MPCS-2017 by leading world-reputed experts in miniaturized space propulsion systems. Recent advances in several major types of small thrusters including Hall thrusters, ion engines, helicon, and vacuum arc devices are presented, and trends and perspectives are outlined.
1-36
Levchenko, Igor
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Bazaka, Kateryna
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Ding, Yongjie
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Raitses, Yevgeny
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Mazouffre, Stéphane
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Henning, Torsten
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Klar, Peter J.
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Shinohara, Shunjiro
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Schein, Jochen
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Garrigues, Laurent
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Kim, Minkwan
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Lev, Dan
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Taccogna, Francesco
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Boswell, Rod W.
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Charles, Christine
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Koizumi, Hiroyuki
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Shen, Yan
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Scharlemann, Carsten
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Keidar, Michael
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Xu, Shuyan
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1 March 2018
Levchenko, Igor
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Bazaka, Kateryna
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Ding, Yongjie
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Raitses, Yevgeny
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Mazouffre, Stéphane
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Henning, Torsten
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Klar, Peter J.
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Shinohara, Shunjiro
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Schein, Jochen
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Garrigues, Laurent
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Kim, Minkwan
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Lev, Dan
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Taccogna, Francesco
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Boswell, Rod W.
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Charles, Christine
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Koizumi, Hiroyuki
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Shen, Yan
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Scharlemann, Carsten
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Keidar, Michael
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Xu, Shuyan
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Levchenko, Igor, Bazaka, Kateryna, Ding, Yongjie, Raitses, Yevgeny, Mazouffre, Stéphane, Henning, Torsten, Klar, Peter J., Shinohara, Shunjiro, Schein, Jochen, Garrigues, Laurent, Kim, Minkwan, Lev, Dan, Taccogna, Francesco, Boswell, Rod W., Charles, Christine, Koizumi, Hiroyuki, Shen, Yan, Scharlemann, Carsten, Keidar, Michael and Xu, Shuyan
(2018)
Space micropropulsion systems for Cubesats and small satellites: from proximate targets to furthermost frontiers.
Applied Physics Reviews, 5 (1), , [011104].
(doi:10.1063/1.5007734).
Abstract
Rapid evolution of miniaturized, automatic, robotized, function-centered devices has redefined space technology, bringing closer the realization of most ambitious interplanetary missions and intense near-Earth space exploration. Small unmanned satellites and probes are now being launched in hundreds at a time, resurrecting a dream of satellite constellations, i.e., wide, all-covering networks of small satellites capable of forming universal multifunctional, intelligent platforms for global communication, navigation, ubiquitous data mining, Earth observation, and many other functions, which was once doomed by the extraordinary cost of such systems. The ingression of novel nanostructured materials provided a solid base that enabled the advancement of these affordable systems in aspects of power, instrumentation, and communication. However, absence of efficient and reliable thrust systems with the capacity to support precise maneuvering of small satellites and CubeSats over long periods of deployment remains a real stumbling block both for the deployment of large satellite systems and for further exploration of deep space using a new generation of spacecraft. The last few years have seen tremendous global efforts to develop various miniaturized space thrusters, with great success stories. Yet, there are critical challenges that still face the space technology. These have been outlined at an inaugural International Workshop on Micropropulsion and Cubesats, MPCS-2017, a joint effort between Plasma Sources and Application Centre/Space Propulsion Centre (Singapore) and the Micropropulsion and Nanotechnology Lab, the G. Washington University (USA) devoted to miniaturized space propulsion systems, and hosted by CNR-Nanotec - P.Las.M.I. lab in Bari, Italy. This focused review aims to highlight the most promising developments reported at MPCS-2017 by leading world-reputed experts in miniaturized space propulsion systems. Recent advances in several major types of small thrusters including Hall thrusters, ion engines, helicon, and vacuum arc devices are presented, and trends and perspectives are outlined.
Text
1.5007734
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Accepted/In Press date: 4 December 2017
e-pub ahead of print date: 22 February 2018
Published date: 1 March 2018
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Local EPrints ID: 418669
URI: http://eprints.soton.ac.uk/id/eprint/418669
PURE UUID: 1880f6d6-ad16-4558-8f55-17d9eb573952
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Date deposited: 16 Mar 2018 17:30
Last modified: 06 Jun 2024 01:52
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Contributors
Author:
Igor Levchenko
Author:
Kateryna Bazaka
Author:
Yongjie Ding
Author:
Yevgeny Raitses
Author:
Stéphane Mazouffre
Author:
Torsten Henning
Author:
Peter J. Klar
Author:
Shunjiro Shinohara
Author:
Jochen Schein
Author:
Laurent Garrigues
Author:
Dan Lev
Author:
Francesco Taccogna
Author:
Rod W. Boswell
Author:
Christine Charles
Author:
Hiroyuki Koizumi
Author:
Yan Shen
Author:
Carsten Scharlemann
Author:
Michael Keidar
Author:
Shuyan Xu
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