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{{Infobox company
{{Infobox company
| trade_name = ThrustMe
| trade_name = ThrustMe
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=== Ongoing ===
=== Ongoing ===
*'''XiaoXiang 1-08''' is a six-unit [[cubesat]] developed by Chinese satellite company Spacety. It carries ThrustMe's I2T5 non-pressurized cold gas thruster, the first in existence.<ref>{{cite web|language=en|first1=Andrew|last1=Jones|title=French startup ThrustMe found fast route to orbit through China's Spacety|url=https://spacenews.com/french-startup-thrustme-found-fast-route-to-orbit-through-chinas-spacety/|date=2019-11-25|access-date=2021-07-30}}</ref>
*'''XiaoXiang 1-08''' is a six-unit [[cubesat]] developed by Chinese satellite company Spacety. It carries ThrustMe's I2T5 non-pressurized cold gas thruster, the first in existence.<ref>{{cite web|language=en|first1=Andrew|last1=Jones|title=French startup ThrustMe found fast route to orbit through China's Spacety|url=https://spacenews.com/french-startup-thrustme-found-fast-route-to-orbit-through-chinas-spacety/|date=2019-11-25|access-date=2021-07-30}}</ref>
*'''BeiHangKongshi-1''' is a 12-unit [[cubesat]] developed by Spacety. The satellite carries ThrustMe's [[NPT30-I2]]-1U, the first iodine electric propulsion system sent into space.<ref name="npt30" /> The cubesat was launched onboard the [[Long March 6]] on 6 November 2020.<ref>{{cite news|date=6 November 2020|title=ThrustMe's Iodine Propulsion System Launched Aboard Spacety's Smallsat|work=Sat News|url=https://news.satnews.com/2020/11/06/thrustmes-iodine-propulsion-system-launched-aboard-spacetys-smallsat/|access-date=1 September 2021}}</ref> According to Rafalskyi, advanced orbital maneuvers would be carried out to test the satellite's full capabilities.<ref>{{cite news |last1=Werner |first1=Debra |title=Spacety launches satellite to test ThrustMe iodine electric propulsion and constellation technologies |url=https://spacenews.com/thrustme-2020-demonstration/ |access-date=1 September 2021 |work=Space News |date=6 November 2020}}</ref>
*'''BeiHangKongshi-1''' is a 12-unit [[cubesat]] developed by Spacety. The satellite carries ThrustMe's [[NPT30-I2]]-1U, the first iodine electric propulsion system sent into space.<ref name="npt30" /> The cubesat was launched on board the [[Long March 6]] on 6 November 2020.<ref>{{cite news|date=6 November 2020|title=ThrustMe's Iodine Propulsion System Launched Aboard Spacety's Smallsat|work=Sat News|url=https://news.satnews.com/2020/11/06/thrustmes-iodine-propulsion-system-launched-aboard-spacetys-smallsat/|access-date=1 September 2021}}</ref> According to Rafalskyi, advanced orbital maneuvers would be carried out to test the satellite's full capabilities.<ref>{{cite news |last1=Werner |first1=Debra |title=Spacety launches satellite to test ThrustMe iodine electric propulsion and constellation technologies |url=https://spacenews.com/thrustme-2020-demonstration/ |access-date=1 September 2021 |work=Space News |date=6 November 2020}}</ref>
*'''Hisea-1''' is a 180-kilogram [[Synthetic-aperture radar|SAR]] minisatellite. It is the first generation of light, small SAR satellites developed by Spacety carrying a [[NPT30]]-I2-1U for orbit maintenance, collision avoidance, and end-of-life deorbiting.<ref>{{cite web|language=en|first1=Andrew|last1=Jones|title=China launches first Long March 8 from Wenchang spaceport|url=https://spacenews.com/china-launches-first-long-march-8-from-wenchang-spaceport/|website=Spacenews|date=2020-03-25|access-date=2021-07-26}}</ref> It was launched on board a [[Long March 8]] rocket on 22 December 2020 for ocean research.<ref>{{cite web|language=en|title=Imagery from Hisea-1 SAR Satellite Unveiled|url=https://en.spacety.com/index.php/2021/01/04/imagery-from-worlds-first-c-band-commercial-smallsat-sar-hisea-1-satellite-unveiled/|date=2020-12-30|access-date=2021-07-30}}</ref><ref>{{cite news |title=Iodine Electric Propulsion To Become A Critical Subsystem For SAR Constellations |url=https://news.satnews.com/2021/01/03/iodine-electric-propulsion-to-become-a-critical-subsystem-for-sar-constellations/ |access-date=1 September 2021 |work=Sat News |date=3 January 2021}}</ref>
*'''Hisea-1''' is a 180-kilogram [[Synthetic-aperture radar|SAR]] minisatellite. It is the first generation of light, small SAR satellites developed by Spacety carrying a [[NPT30]]-I2-1U for orbit maintenance, collision avoidance, and end-of-life deorbiting.<ref>{{cite web|language=en|first1=Andrew|last1=Jones|title=China launches first Long March 8 from Wenchang spaceport|url=https://spacenews.com/china-launches-first-long-march-8-from-wenchang-spaceport/|website=Spacenews|date=2020-03-25|access-date=2021-07-26}}</ref> It was launched on board a [[Long March 8]] rocket on 22 December 2020 for ocean research.<ref>{{cite web|language=en|title=Imagery from Hisea-1 SAR Satellite Unveiled|url=https://en.spacety.com/index.php/2021/01/04/imagery-from-worlds-first-c-band-commercial-smallsat-sar-hisea-1-satellite-unveiled/|date=2020-12-30|access-date=2021-07-30}}</ref><ref>{{cite news |title=Iodine Electric Propulsion To Become A Critical Subsystem For SAR Constellations |url=https://news.satnews.com/2021/01/03/iodine-electric-propulsion-to-become-a-critical-subsystem-for-sar-constellations/ |access-date=1 September 2021 |work=Sat News |date=3 January 2021}}</ref>


Latest revision as of 02:42, 28 December 2024

ThrustMe
ThrustMe
IndustryAerospace
Founded3 February 2017; 7 years ago (2017-02-03)
FounderAne Aanesland, Dmytro Rafalskyi
Headquarters
Verrières-le-Buisson
,
France
Key people
Ane Aanesland (CEO), Dmytro Rafalskyi (CTO)
ProductsSpacecraft propulsion
Number of employees
21–50
Websitehttps://www.thrustme.fr/

ThrustMe is a deep tech company that designs miniaturized aerospace thrusters for small satellites, increasing the life of satellites and making them more affordable.[1][2]

The company builds gridded ion thrusters (NPT30)[3] and cold gas thrusters (I2T5).[4]

History

[edit]

ThrustMe was founded in 2017 by Ane Aanesland and Dmytro Rafalskyi, who previously worked at the École Polytechnique and CNRS as researchers in plasma physics and electric propulsion.[5] Initially, the startup was incubated in Agoranov.[6] Also in 2017, ThrustMe raised 1.7 million euros for its development.[7]

In 2018, ThrustMe received €2.4 million from the European Commission to commercialise electric propulsion for nanosatellites.[8]

In 2019, Ane Aanesland received the CNRS innovation medal for her entrepreneurial activities.[9] The same year, SpaceTy and ThrustMe maneuvered for the first time a satellite using iodine as propellant, with a cold-gas thruster.[10]

In 2021, ThrustMe, in partnership with SpaceTy, achieved the first in-orbit demonstration of an electric propulsion system powered by iodine.[3][11][12] The results were published as a research article in the journal Nature, where the maneuvers described resulted in a cumulative altitude change above 3 km.[13][14]

According to the European Space Agency, in regard to the use of iodine rather than Xenon in a gridded ion thruster, "This small but potentially disruptive innovation could help to clear the skies of space junk, by enabling tiny satellites to self-destruct cheaply and easily at the end of their missions, by steering themselves into the atmosphere where they would burn up."[15]

Flight missions

[edit]

Ongoing

[edit]
  • XiaoXiang 1-08 is a six-unit cubesat developed by Chinese satellite company Spacety. It carries ThrustMe's I2T5 non-pressurized cold gas thruster, the first in existence.[16]
  • BeiHangKongshi-1 is a 12-unit cubesat developed by Spacety. The satellite carries ThrustMe's NPT30-I2-1U, the first iodine electric propulsion system sent into space.[3] The cubesat was launched on board the Long March 6 on 6 November 2020.[17] According to Rafalskyi, advanced orbital maneuvers would be carried out to test the satellite's full capabilities.[18]
  • Hisea-1 is a 180-kilogram SAR minisatellite. It is the first generation of light, small SAR satellites developed by Spacety carrying a NPT30-I2-1U for orbit maintenance, collision avoidance, and end-of-life deorbiting.[19] It was launched on board a Long March 8 rocket on 22 December 2020 for ocean research.[20][21]

Announced

[edit]
  • NorSat-TD is a microsatellite developed by the UTIAS Space Flight Laboratory (SFL) for the Norwegian space agency.[22] The satellite was [launched in 2023; earlier it was] scheduled to be launched in the first quarter of 2022.[23]
  • GOMX-5 is a 12U cubesat built by GomSpace for the European Space Agency to perform a technology demonstration mission.[24] The launch is scheduled for 2021.[25]
  • INSPIRESat-4/ARCADE is a 27U spacecraft built by NTU, Jülich Research Centre, LASP, IISST and NCU. The satellite aims to flight in the VLEO (Very Low Earth Orbit) region to make in-situ Ionospheric plasma measurements.[26] The thruster is expected to lower the orbit of the satellite to less than 300 km and enable the mission to survive at this altitude for a duration of 6 months or more. The launch is scheduled for 2022.[27]

Awards

[edit]
  • French Tech Ticket, 2017.[28]
  • "Grand Prix i-LAB" of the 19th national competition to help the creation of innovative technology companies, 2017.[29]
  • "Prix de l'Excellence Française Innovation Spatiale", 2017.[30]
  • "Médaille de l’innovation du CNRS", for Ane Aanesland, 2019.[31][32]

References

[edit]
  1. ^ Lestavel, Thomas (2019-04-17). "La start-up ThrustMe divise par trois les coûts d'accès à l'espace". Le Figaro.fr (in French). Retrieved 2021-01-22.
  2. ^ "How Iodine Electric Propulsion Systems Can Enable The Economic Sustainability Of Satellite Constellations". satmagazine.com. February 2021. Retrieved 2021-07-26.
  3. ^ a b c "French startup demonstrates iodine propulsion in potential boost for space debris mitigation efforts". Spacenews. 2020-03-25. Retrieved 2021-07-26.
  4. ^ "Iodine Impulse for Smallsats Demo'd On-Orbit by ThrustMe and Spacety". Smallsat News. 2019-11-25. Retrieved 2021-07-26.
  5. ^ "Un nouvel espace pour les start-up". La Jaune et la Rouge (in French). 2018-06-03. Retrieved 2020-04-23.
  6. ^ Meddah, Hassan (2017-07-08). "ThrustMe emmène les minisatellites en orbite". L'Usine Nouvelle (in French). Retrieved 2021-07-26.
  7. ^ "French startup raises $1.9 million for smallsat electric propulsion". SpaceNews.com. 2017-06-16. Retrieved 2020-04-23.
  8. ^ "Electric propulsion startup ThrustMe gets $2.8 million from European Commission". SpaceNews.com. 2018-08-09. Retrieved 2020-04-23.
  9. ^ "Ane Aanesland, de chercheuse au CNRS à CEO de ThrustMe | Bpifrance servir l'avenir". www.bpifrance.fr (in French). 10 July 2019. Retrieved 2020-04-23.
  10. ^ Couto, Alexandre (2019-11-04). "ThrustMe met en orbite le premier satellite utilisant de l'iode pour se propulser". Industry-techno (in French). Retrieved 2020-04-23.
  11. ^ "ThrustMe's Iodine Propulsion System Launched Aboard Spacety's Smallsat". Satnews. 2020-11-06. Retrieved 2021-07-26.
  12. ^ "Iodine thruster could slow space junk accumulation". esa.int. 2021-01-22. Retrieved 2021-07-26.
  13. ^ Rafalskyi, Dmytro; Martínez Martínez, Javier; Habl, Lui; Zorzoli Rossi, Elena; Proynov, Plamen; Boré, Antoine; Baret, Thomas; Poyet, Antoine; Lafleur, Trevor; Dudin, Stanislav; Aanesland, Ane (17 November 2021). "In-orbit demonstration of an iodine electric propulsion system". Nature. 599 (7885): 411–415. doi:10.1038/s41586-021-04015-y. PMC 8599014. PMID 34789903. Both atomic and molecular iodine ions are accelerated by high-voltage grids to generate thrust, and a highly collimated beam can be produced with substantial iodine dissociation.
  14. ^ Ravisetti, Monisha (18 November 2021). "In a space first, scientists test ion thrusters powered by iodine". CNET. Red Ventures. Retrieved 2021-11-29.
  15. ^ "Iodine thruster used to change the orbit of a small satellite for the first time ever". www.esa.int. The European Space Agency. 22 January 2021. Retrieved 2021-11-29.
  16. ^ Jones, Andrew (2019-11-25). "French startup ThrustMe found fast route to orbit through China's Spacety". Retrieved 2021-07-30.
  17. ^ "ThrustMe's Iodine Propulsion System Launched Aboard Spacety's Smallsat". Sat News. 6 November 2020. Retrieved 1 September 2021.
  18. ^ Werner, Debra (6 November 2020). "Spacety launches satellite to test ThrustMe iodine electric propulsion and constellation technologies". Space News. Retrieved 1 September 2021.
  19. ^ Jones, Andrew (2020-03-25). "China launches first Long March 8 from Wenchang spaceport". Spacenews. Retrieved 2021-07-26.
  20. ^ "Imagery from Hisea-1 SAR Satellite Unveiled". 2020-12-30. Retrieved 2021-07-30.
  21. ^ "Iodine Electric Propulsion To Become A Critical Subsystem For SAR Constellations". Sat News. 3 January 2021. Retrieved 1 September 2021.
  22. ^ "Norway Selects Space Flight Laboratory (SFL) to Develop Technology Demonstrator Microsatellite | UTIAS Space Flight Laboratory". www.utias-sfl.net. Retrieved 2021-11-25.
  23. ^ Romsenter, Norsk. "Agreement signed with the Netherlands for Norway's new satellite". Norwegian Space Agency. Retrieved 2021-11-25.
  24. ^ "ESA and GomSpace sign contract for continuation of the GOMX-5 mission". News Powered by Cision. Retrieved 2021-11-25.
  25. ^ "GOMX 5A, 5B". Gunter's Space Page. Retrieved 2021-11-25.
  26. ^ "INSPIRESAT-4/ARCADE : a VLEO mission for atmospheric temperature measurements and ionospheric plasma characterization". Nanyang Technological University. Retrieved 2021-11-26.
  27. ^ "INSPIRESat-4". University of Colorado. Retrieved 2021-11-26.
  28. ^ "Les 70 startups internationales lauréates du french tech ticket saison 2" (PDF). finances.gouv.fr (in French). 2017-03-07. p. 27. Retrieved 2021-07-26.
  29. ^ "Quatre projets lauréats du Concours i-LAB 2017 (dont un Grand Prix) sont accompagnés par la SATT Paris-Saclay" (PDF) (in French). SATT Paris-Saclay. 2017-07-07. Retrieved 2021-07-26.
  30. ^ "Palmarès Spécial Innovation Spatiale 2017 -". Retrieved 2020-04-23.
  31. ^ Poncet, Guerric (2019-11-28). "Ane Aanesland, la mécano de l'espace". Le Point (in French). Retrieved 2020-04-23.
  32. ^ Koppe, Martin (2019-12-09). "Four Aces for Innovation". news.cnrs.fr (in French). Retrieved 2021-07-26.
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