List of planned future spaceflight launches

This article lists planned future orbital and suborbital spaceflight launches and events.

For an overview of spaceflight in the near future, see 2020s in spaceflight.

Orbital launches

2023
Main articles: 2023 in spaceflight, List of spaceflight launches in January–June 2023, and List of spaceflight launches in July–December 2023

2024
Main article: 2024 in spaceflight

2025
Main article: 2025 in spaceflight

2026
Main article: 2026 in spaceflight

2027
Main article: 2027 in spaceflight

2028
Date and time (UTC) Rocket Flight number Launch site LSP
Payload
(⚀ = CubeSat)		 Operator Orbit Function Decay (UTC) Outcome
Remarks
Q1 (TBD)[1] TBA TBA TBA
United Arab Emirates Emirates Asteroid Mission UAESA Heliocentric Asteroid flyby and landing 
Q2 (TBD)[2][3] Europe Vega-C France Kourou ELV France Arianespace
Europe CRISTAL (Sentinel-9) ESA Low Earth (Polar) Earth observation 
Part of the European Space Agency's Copernicus Programme.
H1 2028 (TBD)[4] United States TBA United States TBA United States TBA
United States NEO Surveyor NASA Sun–Earth L1 Infrared astronomy
Near-Earth object detection		 
Near-Earth Object Surveillance Mission (NEOSM).[5] Launch scheduled for no later than June 2028.
August (TBD)[6] TBA TBA TBA
Argentina SAOCOM-2A CONAE Low Earth (SSO) Earth observation 
September (TBD)[7] United States SLS Block 1B United States Kennedy LC-39B United States NASA
United States Artemis 4 NASA Selenocentric (NRHO) Crewed Gateway expedition
Crewed lunar landing		 
Europe International Habitation Module (I-HAB) ESA Selenocentric (NRHO) Lunar Gateway component 
Third crewed Orion flight, second Artemis lunar landing, and first lunar landing with 4 crew members.[8] First launch of the SLS Block 1B variant with the Exploration Upper Stage. Delivery of I-HAB to the Lunar Gateway.[9]
November (TBD)[10][11] China Long March 3B China TBA China CASC
China Tianwen-3 lander CNSA TMI to Martian surface Mars sample-return  
China Tianwen-3 ascent vehicle CNSA TMI to Martian surface Mars sample-return  
Chinese Mars sample-return mission.
November (TBD)[10][11] China Long March 5 China Wenchang LC-1 China CASC
China Tianwen-3 orbiter CNSA Areocentric Mars sample-return  
China Tianwen-3 reentry capsule CNSA Areocentric Mars sample-return  
Chinese Mars sample-return mission.
Q4 (TBD)[12] Russia Angara A5M Russia Vostochny Site 1A Russia Roscosmos
Russia Spektr-UV INASAN IGSO Ultraviolet astronomy 
Q4 (TBD)[2][13] Europe Vega-C France Kourou ELV France Arianespace
Europe CIMR A (Sentinel-11A) ESA Low Earth (SSO) Oceanography 
First of two satellites for the Copernicus Imaging Microwave Radiometer (CIMR) mission. Part of the European Space Agency's Copernicus Programme.
Q4 (TBD)[2] Europe Vega-C[14] France Kourou ELV France Arianespace
Europe Sentinel-3D[16] ESA Low Earth (SSO) Earth observation 
Fourth Sentinel-3 satellite.
2028 (TBD)[17] Russia Angara A5 / KVTK[18] Russia Vostochny Site 1A Russia Roscosmos
Russia Luna 29 Roscosmos TLI to lunar surface Lunar rover
Lunar sample-return		 
2028 (TBD)[19][20] Europe Ariane 62 or Vega-C[21] France Kourou ELA-4 or ELV France Arianespace
Europe ROSE-L (Sentinel-12) ESA Low Earth (Polar) Earth observation 
Part of the European Space Agency's Copernicus Programme.
2028 (TBD)[22][23] Japan Epsilon Japan Uchinoura Japan JAXA
Japan JASMINE JAXA / NAOJ Low Earth (SSO) Astrometric observatory 
2028 (TBD)[7][24] United States Falcon Heavy United States Kennedy LC-39A United States SpaceX
United States SpaceX GLS-1 SpaceX / NASA Selenocentric (NRHO) Gateway logistics 
First Lunar Gateway resupply mission, using the Dragon XL logistics module.
2028 (TBD)[25] Japan H3 Japan Tanegashima LA-Y2 Japan MHI
Japan LiteBIRD[27] JAXA Sun–Earth L2 Space observatory 
2028 (TBD)[28] China Long March 5 China Wenchang LC-1 China CASC
China Chang'e 8 CNSA Selenocentric to lunar surface Lunar lander
ISRU demonstration		 
2028 (TBD)[29][30] Russia Yenisei Russia Vostochny PU3 Russia Roscosmos
Russia Orel Roscosmos Low Earth Flight test 
First flight of the Yenisei super heavy-lift launch vehicle.
2028 (TBD)[31][32] Russia TBA Kazakhstan Baikonur or Russia Vostochny Russia Roscosmos
Russia Ekspress-40 RSCC Geosynchronous Communications 
Replacement for Ekspress-AM7 at 40° East.
2028 (TBD)[33] United States TBA United States TBA United States TBA
United States WSF-M 2 U.S. Space Force Low Earth (SSO) Space weather 
2028 (TBD)[34] United States TBA United States TBA United States TBA
Europe TBA ESA TMI to Martian surface Mars lander 
Europe Rosalind Franklin ESA TMI to Martian surface Mars rover 
ExoMars mission. Delayed and retooled due to the suspension of ESA–Russia cooperation on ExoMars.[35]
2028 (TBD)[36] United States Commercial launch vehicle United States Cape Canaveral or Kennedy[37] United States TBA
United States Europe Sample Retrieval Lander NASA / ESA TMI to Martian surface Mars sample-return 
First lander component of the NASA–ESA Mars sample-return mission. It will carry NASA's Mars Ascent Vehicle and two sample recovery Ingenuity class helicopters.

2029
Date and time (UTC) Rocket Flight number Launch site LSP
Payload
(⚀ = CubeSat)		 Operator Orbit Function Decay (UTC) Outcome
Remarks
June (TBD)[38] United States TBA United States TBA United States TBA
United States DAVINCI+ NASA Cytherocentric Venus atmospheric probe 
NASA Discovery Program mission to Venus.[39]
September (TBD)[7][40] United States SLS Block 1B United States Kennedy LC-39B United States NASA
United States Artemis 5 NASA Selenocentric (NRHO) Crewed lunar landing 
Europe ESPRIT Refueling Module (ERM) ESA Selenocentric (NRHO) Lunar Gateway component 
United States Lunar Terrain Vehicle NASA Selenocentric to lunar surface Crewed lunar rover 
2029 (TBD)[41][42] Europe Ariane 62 France Kourou ELA-4 France Arianespace
Europe ARIEL ESA Sun–Earth L2 Exoplanetary science 
Europe Japan Comet Interceptor ESA / JAXA Sun–Earth L2 Comet flyby 
2029 (TBD)[13] Europe Vega-C France Kourou ELV France Arianespace
Europe CHIME (Sentinel-10) ESA Low Earth (SSO) Earth observation 
Part of the European Space Agency's Copernicus Programme.
2029 (TBD)[13] Europe Vega-C France Kourou ELV France Arianespace
Europe LSTM (Sentinel-8) ESA Low Earth (SSO) Earth observation 
Part of the European Space Agency's Copernicus Programme.
2029 (TBD)[43] Russia Yenisei Russia Vostochny PU3 Russia Roscosmos
Russia Orel Roscosmos Lunar free-return Crewed lunar flyby 
Crewed lunar flyby in preparation for a Russian crewed mission to the lunar surface in 2030.
2029 (TBD)[31][32] Russia TBA Kazakhstan Baikonur or Russia Vostochny Russia Roscosmos
Russia Ekspress-36 RSCC Geosynchronous Communications 
Replacement for Ekspress-AMU1 at 36° East.
2029 (TBD)[44] TBA TBA TBA
Europe Harmony 1 ESA Low Earth (SSO) Earth observation 
Europe Harmony 2 ESA Low Earth (SSO) Earth observation 
Tenth Earth Explorers mission.
2029 (TBD)[45] United States TBA United States TBA United States TBA
United States Venus Atmosphere Sample Return Mission MIT Heliocentric to Venus Venus sample return 
Third of three MIT missions to Venus to study its atmosphere.
2029 (TBD)[46][47] United States TBA United States TBA United States TBA
United States VERITAS NASA Cytherocentric Venus orbiter 
NASA Discovery Program mission to Venus.[39]

2030
Date and time (UTC) Rocket Flight number Launch site LSP
Payload
(⚀ = CubeSat)		 Operator Orbit Function Decay (UTC) Outcome
Remarks
September (TBD)[7][48] United States SLS Block 1B United States Kennedy LC-39B United States NASA
United States Artemis 6 NASA Selenocentric (NRHO) Crewed lunar landing 
United States Gateway Airlock Module NASA Selenocentric (NRHO) Lunar Gateway component 
Q4 (TBD)[2] Europe Ariane 6 France Kourou ELA-4 France Arianespace
Europe MTG-I3 EUMETSAT Geosynchronous Meteorology 
Q4 (TBD)[2] TBA TBA TBA
United States Europe Sentinel-6 NG A NASA / NOAA / EUMETSAT / ESA Low Earth Earth observation 
Sentinel-6 Next Generation satellite.
2030 (TBD)[49] Russia Angara A5V[50] Russia Vostochny Site 1A Russia Roscosmos
Russia Spektr-M (Millimetron) Russian Astro Space Center Sun–Earth L2 Submillimetre / Far-IR astronomy 
NET 2030[51] Russia Angara A5 Russia TBA Russia Roscosmos
Russia TEM prototype Roscosmos Low Earth Technology demonstration 
2030 (TBD)[52] Europe Ariane 62 France Kourou ELA-4 France Arianespace
Europe NEOMIR ESA Sun–Earth L1 Near-Earth object detection
Infrared astronomy		 
Near-Earth Object Mission in the InfraRed (NEOMIR).
2030 (TBD)[53][54] Europe Ariane 64 France Kourou ELA-4 France Arianespace
Europe Argonaut ESA Selenocentric to lunar surface Lunar lander 
First flight of Argonaut, also known as the European Large Logistics Lander (EL3). Part of the HERACLES lunar transport system.
2030 (TBD)[55][56] Japan Epsilon-S Japan Uchinoura Japan JAXA
Japan HiZ-GUNDAM JAXA Low Earth (SSO) Gamma-ray astronomy 
2030 (TBD)[57] China Long March 5 China Wenchang LC-1 China CASC
China Tianwen-4 Jupiter orbiter CNSA Jovicentric Jupiter orbiter 
China Tianwen-4 Uranus flyby spacecraft CNSA Heliocentric to escape velocity Uranus flyby 
Dual-launch of a Chinese Jupiter orbiter and Uranus flyby spacecraft.
2030 (TBD)[58] China Long March 9 China Wenchang China CASC
China CNSA Low Earth Flight test 
First flight of the Long March 9 super heavy-lift launch vehicle.
2030 (TBD)[59][60] Russia TBA Kazakhstan Baikonur or Russia Vostochny Russia Roscosmos
Russia Ekspress-AMU8 RSCC Geosynchronous Communications 

2031
Date and time (UTC) Rocket Flight number Launch site LSP
Payload
(⚀ = CubeSat)		 Operator Orbit Function Decay (UTC) Outcome
Remarks
Q1 (TBD)[2][13] Europe Vega-C France Kourou ELV France Arianespace
Europe CIMR B (Sentinel-11B) ESA Low Earth (SSO) Oceanography 
Second of two satellites for the Copernicus Imaging Microwave Radiometer (CIMR) mission. Part of the European Space Agency's Copernicus Programme.
September (TBD)[7][61] United States SLS Block 1B United States Kennedy LC-39B United States NASA
United States Artemis 7 NASA Selenocentric (NRHO) Crewed lunar landing 
Japan United States Lunar Cruiser JAXA / Toyota / NASA Selenocentric to lunar surface Crewed lunar rover 
Q3 (TBD)[2] TBA TBA TBA
Europe Sentinel-3 NG TOPO A ESA Low Earth (SSO) Earth observation 
Sentinel-3 Next Generation Topography satellite.
Q4 (TBD)[2][62] Europe Ariane 6 France Kourou ELA-4 France Arianespace
Europe MetOp-SG A2 EUMETSAT Low Earth (SSO) Meteorology 
2031 (TBD)[63] Europe Ariane 62 France Kourou ELA-4 France Arianespace
Europe EnVision ESA Cytherocentric Venus orbiter 

2032
Date and time (UTC) Rocket Flight number Launch site LSP
Payload
(⚀ = CubeSat)		 Operator Orbit Function Decay (UTC) Outcome
Remarks
Q2 (TBD)[2] Europe Ariane 6 France Kourou ELA-4 France Arianespace
Europe MTG-S2 EUMETSAT Geosynchronous Meteorology 
Q4 (TBD)[2][62] Europe Ariane 6 France Kourou ELA-4 France Arianespace
Europe MetOp-SG B2 EUMETSAT Low Earth (SSO) Meteorology 
2032 (TBD)[7][61] United States SLS Block 1B United States Kennedy LC-39B United States NASA
United States Artemis 8 NASA Selenocentric (NRHO) Crewed lunar landing 
United States Foundational Surface Habitat NASA Selenocentric to lunar surface Lunar surface habitat 
The Foundational Surface Habitat will be the first component of the Artemis Base Camp lunar outpost.
2032 (TBD)[64] United States TBA United States TBA United States TBA
United States GeoXO-1 NOAA Geosynchronous Meteorology 
2032 (TBD)[65] United States TBA United States TBA United States TBA
United States JPSS-4 NOAA Low Earth (SSO) Meteorology 

2033 and later
Date and time (UTC) Rocket Flight number Launch site LSP
Payload
(⚀ = CubeSat)		 Operator Orbit Function Decay (UTC) Outcome
Remarks
Q1 2033[2] TBA TBA TBA
Europe Sentinel-3 NG OPT A ESA Low Earth (SSO) Earth observation 
Sentinel-3 Next Generation Optical satellite.
Q2 2033[2] Europe Ariane 6 France Kourou ELA-4 France Arianespace
Europe MTG-I4 EUMETSAT Geosynchronous Meteorology 
Q4 2033[2] TBA TBA TBA
United States Europe Sentinel-6 NG B NASA / NOAA / EUMETSAT / ESA Low Earth Earth observation 
Sentinel-6 Next Generation satellite.
Q1 2035[2] TBA TBA TBA
Europe Sentinel-3 NG OPT B ESA Low Earth (SSO) Earth observation 
Sentinel-3 Next Generation Optical satellite.
2035 (TBD)[66] Europe Ariane 64[67] France Kourou ELA-4 France Arianespace
Europe Athena ESA Sun–Earth L2,
Halo orbit		 X-ray astronomy 
2035 (TBD)[64] United States TBA United States TBA United States TBA
United States GeoXO-2 NOAA Geosynchronous Meteorology 
2035 (TBD)[64] United States TBA United States TBA United States TBA
United States GeoXO-3 NOAA Geosynchronous Meteorology 
2037 (TBD)[68] TBA TBA TBA
Europe LISA ESA Heliocentric Gravitational-wave observatory 
Q4 2038[2][62] Europe Ariane 6 France Kourou ELA-4 France Arianespace
Europe MetOp-SG A3 EUMETSAT Low Earth (SSO) Meteorology 
Q4 2039[2][62] Europe Ariane 6 France Kourou ELA-4 France Arianespace
Europe MetOp-SG B3 EUMETSAT Low Earth (SSO) Meteorology 

Deep-space rendezvous

Date (UTC) Spacecraft Event Remarks
18 April 2028 Lucy Flyby of asteroid 11351 Leucus Target altitude 1000 km
June 2028 Hayabusa2 Flyby of Earth[69] Gravity assist
11 November 2028 Lucy Flyby of asteroid 21900 Orus Target altitude 1000 km
18 January 2029 JUICE Third and final gravity assist at Earth
21 April 2029 OSIRIS-APEX Rendezvous with asteroid 99942 Apophis[70] Observation operations begin 8 April
26 December 2030 Lucy Third gravity assist at Earth Target altitude 660 km
July 2031 Hayabusa2 Arrival at asteroid 1998 KY26[69]
July 2031 JUICE Flyby of Ganymede
July 2031 JUICE Jupiter orbit insertion
July 2032 JUICE Flyby of Europa
2 March 2033 Lucy Flyby of binary asteroid 617 Patroclus-Menoetius Target altitude 1000 km
December 2034 JUICE Ganymede orbit insertion Planned first orbit of a moon other than Earth's

References
  1. Wall, Mike (5 October 2021). "United Arab Emirates to launch bold asteroid mission in 2028". Space.com. Retrieved 8 October 2021.
  2. "Planned launches". EUMETSAT. 1 September 2022. Retrieved 28 November 2022.
  3. Parsonson, Andrew (23 September 2020). "Airbus signs $350 million contract to build CRISTAL ice-monitoring satellite for EU". SpaceNews. Retrieved 23 September 2020.
  4. Foust, Jeff (7 December 2022). "NASA confirms NEO Surveyor for 2028 launch". SpaceNews. Retrieved 8 December 2022.
  5. Smith, Marcia (19 January 2020). "NASA's New NEO Mission Will Substantially Reduce Time to Find Hazardous Asteroids". Space Policy Online. Retrieved 9 June 2020.
  6. "CEOS EO HANDBOOK – MISSION SUMMARY - SAOCOM-2A". CEOS. Retrieved 10 November 2022.
  7. Foust, Jeff (13 March 2023). "NASA planning to spend up to $1 billion on space station deorbit module". SpaceNews. Retrieved 13 March 2023.
  8. Foust, Jeff (30 October 2022). "Lunar landing restored for Artemis 4 mission". SpaceNews. Retrieved 31 October 2022.
  9. Foust, Jeff (20 January 2022). "NASA foresees gap in lunar landings after Artemis 3". SpaceNews. Retrieved 20 January 2022.
  10. Jones, Andrew (4 November 2021). "China is planning a complex Mars sample return mission". SpaceNews. Retrieved 12 November 2021.
  11. @EL2squirrel (12 December 2019). "China's second Mars exploration mission is a Mars Sample Return mission: Earth Return Orbiter will be launched in 2028, another launch for Lander&Ascender, Earth Entry Vehicle will be return in 2031 pbs.twimg.com/media/ELo1S31UYAAcbMf?format=jpg&name=large" (Tweet). Retrieved 12 November 2021 via Twitter.
  12. Zak, Anatoly (30 December 2022). "Spektr-UF – Russian ultraviolet astronomy's long road to space". RussianSpaceWeb. Retrieved 5 February 2023.
  13. Parsonson, Andrew (13 November 2020). "ESA signs a trio of Copernicus contracts worth 1.3 billion euros". SpaceNews. Retrieved 14 November 2020.
  14. Henry, Caleb (10 February 2016). "ESA Awards Sentinel 3C and D Satellite Contracts to Thales Alenia Space". Via Satellite. Retrieved 27 May 2021.
  15. Krebs, Gunter (7 July 2020). "Sentinel 3A, 3B, 3C, 3D". Gunter's Space Page. Retrieved 27 May 2021.
  16. Krebs, Gunter (7 July 2020). "Sentinel 3A, 3B, 3C, 3D". Gunter's Space Page. Retrieved 27 May 2021.
  17. "Luna-29 mission may be led by robot". Hitecher. 14 May 2019. Retrieved 2 October 2019.
  18. Pietrobon, Steven (31 August 2019). "Russian Launch Manifest". Retrieved 5 September 2019.
  19. "Oppdraget over for radarsatellitten Sentinel-1B" [Mission over for the Sentinel-1B radar satellite]. Norwegian Space Agency (in Norwegian). 12 August 2022. Retrieved 14 September 2022.
  20. "Contract signed for new Copernicus ROSE-L mission". ESA. 3 December 2020. Retrieved 4 December 2020.
  21. "Thales Alenia Space signs contract from ESA to build Copernicus ROSE-L satellite". Thales Group (Press release). 3 December 2020. Retrieved 4 December 2020.
  22. "JASMINE(赤外線位置天文観測衛星)で拓く天の川中心核と地球型惑星の探査" [JASMINE (Infrared Astrometry Satellite) will pioneer the exploration of the Milky Way's core and terrestrial planets] (PDF). NAOJ News (in Japanese). No. 332. National Astronomical Observatory of Japan. 1 March 2021. p. 6. ISSN 0915-8863. Retrieved 29 April 2021.
  23. ""Small-JASMINE": Japan Astrometry Satellite Mission for INfrared Exploration". National Astronomical Observatory of Japan. Retrieved 8 October 2019.
  24. Foust, Jeff (24 February 2023). "NASA plans to start work this year on first Gateway logistics mission". SpaceNews. Retrieved 13 March 2023.
  25. Montier, L. (10 July 2019). "LiteBIRD Overview" (PDF). IN2P3. Retrieved 29 April 2021.
  26. "Instrumentation | LiteBIRD: Lite (Light) satellite for the studies of B-mode polarization and Inflation from cosmic background Radiation Detection". High Energy Accelerator Research Organization. Retrieved 8 November 2019.
  27. "Instrumentation | LiteBIRD: Lite (Light) satellite for the studies of B-mode polarization and Inflation from cosmic background Radiation Detection". High Energy Accelerator Research Organization. Retrieved 8 November 2019.
  28. Jones, Andrew (28 November 2022). "China outlines pathway for lunar and deep space exploration". SpaceNews. Retrieved 29 November 2022.
  29. "Russia approves conceptual design of super-heavy carrier rocket". TASS. 22 October 2019. Retrieved 7 November 2019.
  30. Zak, Anatoly (4 November 2019). "The Yenisei super-heavy rocket". RussianSpaceWeb. Retrieved 7 November 2019.
  31. Shulgin, Dmitry (21 January 2021). "Российский "Экспресс" набирает обороты" [Russian "Ekspress" gaining momentum]. RSCC (in Russian). p. 5. Retrieved 23 July 2021.
  32. Holmes, Mark (15 October 2020). "Russian Space Leaders Split on GEO vs LEO at SatComRus". Via Satellite. Retrieved 23 July 2021.
  33. Erwin, Sandra (11 November 2022). "Space Force orders new weather satellite from Ball Aerospace". SpaceNews. Retrieved 12 November 2022.
  34. Foust, Jeff (29 November 2022). "ESA's ExoMars plans depend on NASA contributions". SpaceNews. Retrieved 30 November 2022.
  35. Foust, Jeff (17 March 2022). "ESA suspends work with Russia on ExoMars mission". SpaceNews. Retrieved 17 March 2022.
  36. Foust, Jeff (27 March 2022). "NASA to delay Mars Sample Return, switch to dual-lander approach". SpaceNews. Retrieved 28 March 2022.
  37. "NASA Selects Developer for Rocket to Retrieve First Samples From Mars". NASA. 7 February 2022. Retrieved 8 February 2022.
  38. Neal Jones, Nancy (2 June 2022). "NASA's DAVINCI Mission To Take the Plunge Through Massive Atmosphere of Venus". NASA. Retrieved 15 July 2022.
  39. Potter, Sean (2 June 2021). "NASA Selects 2 Missions to Study 'Lost Habitable' World of Venus". NASA (Press release). Retrieved 2 June 2021.
  40. Foust, Jeff (20 January 2022). "NASA foresees gap in lunar landings after Artemis 3". SpaceNews. Retrieved 20 January 2022.
  41. "Ariel moves from blueprint to reality". ESA. 12 November 2020. Retrieved 12 November 2020.
  42. Lakdawalla, Emily (21 June 2019). "ESA to Launch Comet Interceptor Mission in 2028". The Planetary Society. Retrieved 9 August 2019.
  43. "Определен срок полета российского корабля "Орел" с экипажем на МКС" [The scheduled time for the first crewed flight of the Russian spacecraft Orel to the ISS has been determined]. RIA Novosti (in Russian). 13 February 2020. Retrieved 29 June 2020.
  44. "ESA selects Harmony as tenth Earth Explorer mission". ESA. 22 September 2022. Retrieved 22 September 2022.
  45. "Venus Life Finder Mission Study" (PDF). Venus Cloud Life. MIT. 10 December 2021. pp. 42–52. Retrieved 4 April 2022.
  46. Jeff Foust [@jeff_foust] (30 March 2023). "In a presentation at Space Science Week, Sue Smrekar says the earliest VERITAS can now launch is late 2029, which she argues is preferable over 2031 to deconflict with DAVINCI and EnVision and lower overall cost. Need "modest" bridge funding in FY23 and 24 to do so" (Tweet) via Twitter.
  47. Howell, Elizabeth (4 November 2022). "Problems with NASA asteroid mission Psyche delay Venus probe's launch to 2031". Space.com. Retrieved 5 November 2022.
  48. Kshatriya, Amit; Kirasich, Mark (31 October 2022). "Artemis I – IV Mission Overview / Status | Artemis Planning Manifest" (PDF). NASA Advisory Council. p. 3. Retrieved 18 November 2022.
  49. "В РАН заявили об интересе к проекту российского космического телескопа" [The RAS announced its interest in the project of the Russian space telescope]. RIA Novosti (in Russian). 12 November 2021. Retrieved 18 November 2021.
  50. "В РАН предложили заменить ракету для запуска обсерватории "Спектр-М"" [Russian Academy of Sciences proposes replacement for rocket that will launch the Spektr-M observatory]. RIA Novosti (in Russian). 25 November 2019. Retrieved 27 December 2020.
  51. "Рогозин посчитал перспективы создаваемого ядерного буксира гигантскими" [Rogozin gives consideration to the prospect of a large nuclear space tug]. TASS (in Russian). 27 May 2020. Retrieved 29 June 2020.
  52. "NEOMIR: finding risky asteroids outshone by Sun". ESA. 12 February 2023. Retrieved 18 February 2023.
  53. Foust, Jeff (21 October 2022). "ESA finalizes package for ministerial". SpaceNews. Retrieved 18 November 2022.
  54. "Argonaut – European Large Logistics Lander". ESA. Retrieved 18 November 2022.
  55. Yonetoku, Daisuke (8 September 2021). "ガンマ線バーストを用いた初期宇宙・極限時空探査計画HiZ-GUNDAM" [Exploring the early universe using gamma-ray bursts・Extreme space-time exploration with HiZ-GUNDAM] (PDF). Group of Optical and Infrared Astronomers (in Japanese). p. 4. Retrieved 26 January 2022.
  56. Krebs, Gunter (24 January 2022). "HiZ-GUNDAM". Gunter's Space Page. Retrieved 26 January 2022.
  57. Jones, Andrew (22 September 2022). "China wants to probe Uranus and Jupiter with 2 spacecraft on one rocket". Space.com. Retrieved 18 November 2022.
  58. Jones, Andrew (9 November 2022). "China scraps expendable Long March 9 rocket plan in favor of reusable version". SpaceNews. Retrieved 18 November 2022.
  59. Shulgin, Dmitry (21 January 2021). "Российский «Экспресс» набирает обороты" [Russian "Ekspress" gaining momentum]. RSCC (in Russian). p. 5. Retrieved 23 July 2021.
  60. Holmes, Mark (15 October 2020). "Russian Space Leaders Split on GEO vs LEO at SatComRus". Via Satellite. Retrieved 23 July 2021.
  61. Kshatriya, Amit; Kirasich, Mark (31 October 2022). "Artemis I – IV Mission Overview / Status | Artemis Planning Manifest" (PDF). NASA Advisory Council. p. 3. Retrieved 18 November 2022.
  62. "EUMETSAT confirms the choice of Arianespace's European launchers for its future missions". Arianespace (Press release). 2 December 2020. Retrieved 13 August 2021.
  63. "ESA selects revolutionary Venus mission EnVision". ESA. 10 June 2021. Retrieved 10 June 2021.
  64. "GeoXO Timeline". NESDIS. NOAA. Retrieved 28 January 2023.
  65. "JPSS Mission and Instruments". NESDIS. NOAA. Retrieved 12 November 2022.
  66. "Athena | Mission Summary". ESA. 2 May 2022. Retrieved 4 May 2022.
  67. "Athena mission". Athena Community Office. Retrieved 10 November 2021.
  68. "LISA | Mission Summary". ESA. 8 November 2021. Retrieved 10 November 2021.
  69. "はやぶさ2、次のミッションは小惑星「1998KY26」…JAXA". The Yomiuri Shimbun (in Japanese). 13 September 2020. Archived from the original on 5 December 2020. Retrieved 14 September 2020.
  70. Lauretta, D. S.; Bierhaus, E. B.; Binzel, R. P.; Bos, B. J. (6 November 2020). OSIRIS-REx at Apophis: Opportunity for an Extended Mission (PDF). Apophis T–9 Years: Knowledge Opportunities for the Science of Planetary Defense.
Generic references:
 Spaceflight portal
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.