astro.wikisort.org - Asteroid

Search / Calendar

The following tables list all minor planets and comets that have been visited by robotic spacecraft.

Number of minor planets and comets visited by spacecraft
Number of minor planets and comets visited by spacecraft

List of minor planets visited by spacecraft


A total of 17 minor planets (asteroids, dwarf planets, and Kuiper belt objects) have been visited by space probes. Moons (not directly orbiting the Sun) and planets are not minor planets and thus are not included in the table below.


Minor planet Space probe
Name Image Dimensions
(km)(a)		 Discovery
year		 Name Closest approach Remarks
year in km in radii(b)
951 Gaspra
18.2 × 10.5 × 8.9
(12.2 km)		 1916 Galileo 1991 1,600 262 Flyby; first asteroid visited by a spacecraft.
243 Ida
56 × 24 × 21
(28 km)		 1884 Galileo 1993 2,390 152 Flyby; discovered Dactyl; first asteroid with a moon visited by a spacecraft, largest asteroid visited by spacecraft at the time.
253 Mathilde
66 × 48 × 46
(58 km)		 1885 NEAR Shoemaker 1997 1,212 49.5 Flyby; largest asteroid visited by a spacecraft at the time.
433 Eros
34 × 11 × 11
(17 km)		 1898 NEAR Shoemaker 1998–2001 landed landed 1998 flyby; 2000 orbited (first asteroid studied from orbit); 2001 landing; first asteroid landing, first asteroid orbited by a spacecraft, first near-Earth asteroid (NEA) visited by a spacecraft.
9969 Braille
2.2 × 0.6
(1.6 km)		 1992 Deep Space 1 1999 26 12.7 Flyby; followed by flyby of Comet Borrelly; failed to image it during closest approach, only taking images 14,000 km from the asteroid.
5535 Annefrank
4.0 1942 Stardust 2002 3,079 1,230 Flyby
25143 Itokawa
0.5 × 0.3 × 0.2
(350 meters)		 1998 Hayabusa 2005 landed landed Landed; returned dust samples to Earth in 2010 - first sample return mission from asteroid; smallest asteroid visited by a spacecraft, first asteroid visited by a non-NASA spacecraft.
2867 Šteins
4.6 1969 Rosetta 2008 800 302 Flyby; first asteroid visited by the ESA.
21 Lutetia
120 × 100 × 75
(100 km)		 1852 Rosetta 2010 3,162 64.9 Flyby on 10 July 2010; largest asteroid visited by a spacecraft at the time.
4 Vesta 529 1807 Dawn 2011–2012 200
approx.
 0.76 Space probe broke orbit on 5 September 2012 and headed to Ceres; first "big four" asteroid visited by a spacecraft, largest asteroid visited by a spacecraft at the time.
4179 Toutatis
2.45 1934 Chang'e 2 2012 3.2 0.70 Flyby;[1] closest asteroid flyby, first asteroid visited by a Chinese probe.
Ceres
1
952 1801 Dawn 2015–2018 35 0.07 First "close up" picture of Ceres taken in December 2014; probe entered orbit in March 2015; first dwarf planet visited by a spacecraft, largest asteroid visited by a spacecraft.
Pluto
134340
2376 1930 New Horizons 2015 12,500 10.5 Flyby; first trans-Neptunian object visited, most distant object visited by a spacecraft (at the time of the visit).
162173 Ryugu
0.896 1999 Hayabusa2 2018-2019 landed landed Rendezvoused with asteroid from June 2018 to November 2019. Successful touchdowns to collect a sample in February and July 2019.[2] Three landers and an explosive impactor successfully deployed to the surface.[3] Returned dust samples to Earth in December 2020.[4]
101955 Bennu
0.490 1999 OSIRIS-REx 2018-2020 landed landed Arrived on 3 December 2018; entered lowest orbit on 12 June 2019; smallest object to be orbited by spacecraft and closest ever orbit;[5][6] touchdown on 20 October 2020 to collect sample.
486958 Arrokoth
36 × 18 × 10 2014 New Horizons 2019 3,500 380 Flew by Arrokoth (nicknamed Ultima Thule) on 1 January 2019, currently farthest object to be visited by a spacecraft.
65803 Didymos
0.78 1996 DART / LICIACube 2022 1.19 3.1 Asteroid of a near-Earth Apollo group; a flyby target; its moon being the kinetic impact target to test asteroid deflection[7][8]
Dimorphos
65803 Didymos I
0.16 2003 DART / LICIACube 2022 landed landed Moon of a near-Earth asteroid of the Apollo group; flyby target of one and kinetic impact target of another spacecraft to test asteroid deflection[7][8]
Notes:
a A minor planet's dimensions may be described by x, y, and z axes instead of an (average) diameter due to its non-spherical, irregular shape.
b Closest approach given in multiples of the minor planet's mean radius
 · List ordered in ascending order by a minor planet's first visit.

Incidental flybys


In addition to the above listed objects, four asteroids have been imaged by spacecraft at distances too large to resolve features (over 100,000 km), and are labeled as such.

Minor planet Space probe
Name Image Dimensions
(km)(a)		 Discovery
year		 Name Closest approach Remarks
year in km in radii(b)
Unnamed asteroid 0.8 Pioneer 10 1972 8,851,392 22,128,480 Distant incidental flyby.[9]
307 Nike 55 1891 Pioneer 10 1972 8,800,000 320,232 Distant incidental flyby.[10]
2685 Masursky
10.7 1981 Cassini–Huygens 2000 1,600,000 297,840 Distant incidental flyby.
132524 APL
2.5 2002 New Horizons 2006 101,867 81,493 Distant incidental flyby.
2012 PM35 0.9-2.5 2012 Dawn 2017 200,000 130,000 Distant incidental flyby; Approached Ceres to 200,000 km in September 2017 while Dawn was in orbit.[citation needed]

List of comets visited by spacecraft


Comet Space probe
Name Image Dimensions
(km)(a)		 Discovery
year		 Name Closest approach Remarks
year in km in radii(b)
Giacobini–Zinner
2 1900 ICE 1985 7,800 7,800 first flyby of a comet
Halley
15×9 Known
since
1759

(Precovered to 240 BCE) 		Vega 1 1986 8,889 1,620 flyby
Vega 2 1986 8,030 1,460 flyby
Suisei 1986 151,000 27,450 distant flyby
Sakigake 1986 6,990,000 1,270,747 distant flyby
Giotto 1986 596 108 flyby; first direct images of a comet nucleus
ICE 1986 31,000,000 5,647,000 distant flyby
Grigg–Skjellerup
2.6 1902 Giotto 1992 200 154 flyby
Borrelly
8×4×4 1904 Deep Space 1 2001 2,171 814 flyby; closest approach in September 2001 when probe entered the comet's coma[11]
Wild 2
5.5×4.0×3.3 1978 Stardust 2004 240 113 flyby; first sample return mission from comet to Earth (2006)
Tempel 1
7.6×4.9 1867 Deep Impact 2005 500 80 flyby; delivered an impactor
Deep Impact's impactor vehicle 2005 landed landed first landing on a comet (blasted a crater)
Stardust 2011 181 57.9 flyby; imaged the crater created by Deep Impact
Hartley 2
1.4 1986 EPOXI
(Deep Impact)		 2010 700 1,000 flyby; smallest comet visited
Churyumov–Gerasimenko
4.1×3.3×1.8 1969 Rosetta 2016 landed landed first orbiter of comet (November 2014); impacted surface as of 2016; OSIRIS captured image with 11 cm/px-resolution in Spring 2015[12]
Philae
(Rosetta's lander)		 2014 landed landed first soft landing on a comet (November 2014)
Notes:
(a)Due to a non-spherical, irregular shape, a comet's x, y, and z axes instead of an (average) diameter are often used to describe its dimensions.
(b)Closest approach given in multiples of the comet's (average mean) radius
 ·  List ordered in ascending order by a comet's first visit.

Spacecraft visited by comets


Comet C/2013 A1 passed close by planet Mars in October 2014, closer than the Moon is to Earth.[13] As of early 2014 it was calculated to pass as close as 0.00087 AU (130,000 km; 81,000 mi).[13] This was so close that the event was deemed dangerous to spacecraft in orbit around Mars.[14] Spacecraft that were active at that time included 2001 Mars Odyssey, Mars Express, MAVEN, Mars Orbiter Mission, and Mars Reconnaissance Orbiter in Mars orbit – and two on the surface – Mars Exploration Rover Opportunity and the Mars Science Laboratory Curiosity.


Future visits



Planned


NameDiameter(a)
(km)		Year of
discovery		SpacecraftYear of
visit		Notes
16 Psyche1861852Psyche2026Large metallic main-belt asteroid[15]
617 Patroclus-Menoetius1411906Lucy2033Binary Jupiter trojan, Trojan camp, 5th-largest Jupiter trojan[16]
3200 Phaethon51983DESTINY+2028Rock comet and parent body of Geminids meteor shower[17]
3548 Eurybates721973Lucy2027Jupiter trojan with satellite, Greek camp[16]
11351 Leucus421997Lucy2028Jupiter trojan, Greek camp, a slow rotator[16]
15094 Polymele211999Lucy2027Jupiter trojan, Greek camp[16]
21900 Orus531999Lucy2028Jupiter trojan, Greek camp[16]
52246 Donaldjohanson3.91981Lucy2025Main-belt asteroid and member of the Erigone family[18]
65803 Didymos0.81996Hera2026Probe will study the results obtained by the NASA's DART impactor 4 years after its mission.[19][20]
Dimorphos
65803 Didymos I		0.16 2003Hera2026Probe will study the results obtained by the NASA's DART impactor 4 years after its mission.[20]
(98943) 2001 CC210.72001Hayabusa2#2026Near-Earth asteroid of the Apollo group; extended mission target[21]
99942 Apophis0.3702004OSIRIS-APEX2029Extended mission after sample delivery[22]
469219 Kamoʻoalewa0.0412016ZhengHe2025Co-orbital near-Earth asteroid; sample return target[23]
1998 KY260.0301998Hayabusa2#2031Near-Earth asteroid of the Apollo group; extended mission target[21]
2020 GE0.0182020NEA Scout2023Near-Earth asteroid of the Apollo group[24]
311P/PanSTARRS0.482013ZhengHe2032Active asteroid[23]
(a) given diameters are estimates

Proposals


The following table lists minor planets that are proposed to be visited by spacecraft missions that have not yet been approved.

Name Diameter
(km)		 Date of discovery Spacecraft Proposed dates Notes
29P/Schwassmann–Wachmann65November 15, 1927CentaurusLaunch: 2026
Flyby: 2030s		A flyby proposal.[25]
50 Virginia99.81857MANTISLaunch: 2020s
Flyby: 2020s		A flyby proposal of 14 asteroids, the largest being 50 Virginia.
223 Rosa82.71882JUICELaunch: 2023
Flyby: 2029		A Jupiter orbiter with 223 Rosa as a proposed flyby.[26]
2060 Chiron2711977CentaurusLaunch: 2026
Flyby: 2030s		A flyby proposal.[25]
10199 Chariklo3301997CamillaLaunch: 2026
Flyby: 2039		A mission concept for a flyby and impactor.[27]
50000 Quaoar11212002Interstellar ExpressLaunch: 2024
Flyby: 2030s		A Voyager-like mission proposed to be launched in 2024 by the CNSA. A pair of probes would flyby Neptune, Quaoar, and one other KBO.[28][29]
99942 Apophis0.3702004Unnamed CNSA missionLaunch: ~2022Flyby[30]
(153591) 2001 SN2632.62001ASTERLaunch: 2022/2025
Flyby: 2024/2027		Brazilian Space Agency mission to triple near-Earth asteroid system of the Amor group[31]
(175706) 1996 FG30.1551996Unnamed CNSA missionLaunch: ~2022Sample-return[30]
169P/NEAT1871Unnamed CNSA missionLaunch: ~2022Flyby[30]
Trojan asteroids1906OKEANOSLaunch: 2026Proposed multiple flyby mission to Jupiter's Trojan asteroids using solar sail propulsion.[32]

Past proposals



Failed missions


Former targets for launched spacecraft.

Key
spacecraft failure
mission planning decisions
Name Diameter
(km)		 Date of discovery Spacecraft Year Notes
2P/Encke 4.8 January 17, 1786 CONTOUR 1998 Spacecraft lost while leaving Earth orbit[33]
2P/Encke 4.8 January 17, 1786 NEAR 1998 Target changed before launch[34]
4 Vesta 525 March 29, 1807 NEAR 1998 Target changed before launch[34]
6P/d'Arrest 3.2 June 28, 1851 CONTOUR 2008 Spacecraft lost while leaving Earth orbit[33]
21P/Giacobini–Zinner 2 December 20, 1900 Suisei 1998 Extended mission, spacecraft ran out of fuel en route.[35]
46P/Wirtanen 1.2 January 17, 1948 Rosetta 2011 Initial target, was changed due to delay.[36][37]
73P/Schwassmann–Wachmann 1.1 (before breakup) May 2, 1930 CONTOUR 2006 Spacecraft lost while leaving Earth orbit[33]
85D/Boethin January 4, 1975 EPOXI (Deep Impact) 2007 Astronomers were unable to locate the comet, which is too faint to be observed.[38]
140 Siwa 103 October 13, 1874 Rosetta 2007 Target changed due to launch postponement[39]
145 Adeona 151 June 3, 1875 Dawn 2016 Abandoned target (not seriously considered)[40]
1620 Geographos 5.1×1.8 September 14, 1951 Clementine 1995 Mission failed before retargeting
1036 Ganymed 35 October 23, 1924 NEAR 1998 Target changed before launch[34]
2001 AV43 0.03 January 5, 2001 Hayabusa2 2029 Target proposed but not selected[41]
2019 van Albada 7.5-9.4 September 28, 1935 NEAR 1998 Target changed before launch[34]
2101 Adonis 0.6 February 12, 1936 Vega 2 1987 Secondary target; insufficient fuel[42]
2530 Shipka 12.4[43] July 9, 1978 Rosetta 2007 Secondary target; changed for better trajectory[39]
2703 Rodari 9[44] March 29, 1979 Rosetta 2007 Target in early mission planning,[when?] but not chosen[39]
3352 McAuliffe 2–5 February 6, 1981 Deep Space 1 1998 Target changed due to launch postponement
3840 Mimistrobell 5.2[45] October 9, 1980 Rosetta 2007 Target changed[39]
4015 Wilson–Harrington 4 November 19, 1949 NEAR 1998 Target changed before launch[34]
4015 Wilson–Harrington 4 November 19, 1949 Deep Space 1 1999 Target changed due to launch postponement
4660 Nereus ~1 February 28, 1982 NEAR 1997 Target changed before launch[34]
4660 Nereus ~1 February 28, 1982 Hayabusa 2002 Target changed due to launch postponement
4979 Otawara 5.5 August 2, 1949 Rosetta 2007 Target changed due to launch postponement[39]
(5604) 1992 FE 0.6 March 26, 1992 OSIRIS-REx 2018 Secondary target abandoned in 2010 during early mission planning[citation needed]
(10302) 1989 ML 0.6 June 29, 1989 Hayabusa 2002 Target changed due to launch postponement
(35107) 1991 VH1.041991Janus2026Launch delayed, target not available [46]
(163249) 2002 GT 0.35-0.5 April 3, 2002 EPOXI (Deep Impact) 2020 Communications with spacecraft lost
(172034) 2001 WR10.662001Hayabusa22023Target proposed for extended mission but not selected.[47]
(175706) 1996 FG31.691996Janus2026Launch delayed, target not available[46]
(185851) 2000 DP107 ~0.8 February 29, 2000 PROCYON 2016 Ion engine failure in heliocentric orbit[48]

Cancelled or not developed missions


Name Diameter
(km)		 Date of discovery Spacecraft Year Notes
1 Ceres 939 January 1, 1801 Ceres Polar Lander [49]
1 Ceres 939 January 1, 1801 Calathus [50]
2 Pallas 512 1779 Athena 2024
4 Vesta 525 March 29, 1807 AGORA 1990-1994
4 Vesta 525 March 29, 1807 MAOSEP 1990s
4 Vesta 525 March 29, 1807 Vesta 1994
46P/Wirtanen 1.2 January 17, 1948 Comet Hopper 2022 [51]
67P/Churyumov–Gerasimenko 4.1×3.3×1.8 September 20, 1969 CAESAR 2024 [52]
67P/Churyumov–Gerasimenko4.1×3.3×1.8September 20, 1969CONDOR2024Proposed comet sample-return mission.[53]
88P/Howell4.41981CORSAIR2024Proposed comet sample-return mission.[54]
433 Eros 34 × 11 × 11 1898 Clementine 2 1996
449 Hamburga 86 October 31, 1899 CRAF 1998
4015 Wilson–Harrington 4 November 19, 1949 Marco Polo/Hayabusa Mk2 2022
4179 Toutatis 2.45 1934 Clementine 2 1996
4660 Nereus ~1 February 28, 1982 NEAP 1997
7968 Elst–Pizarro or 133P/Elst–Pizarro ~0.6 July 24, 1979 Castalia 2028 [55]
25143 Itokawa 0.5 × 0.3 × 0.2 1998 Asteroid Redirect Mission 2021 [56]
47171 Lempo 0.272 October 1, 1999 New Horizons 2 [57]
66652 Borasisi ~0.1 September 8, 1999 New Horizons 2 [58]
99942 Apophis 0.37 June 19, 2004 Don Quijote 2015 [59]
101955 Bennu 0.490 1999 Asteroid Redirect Mission 2021 [56]
101955 Bennu 0.490 1999 HAMMER [60]
134340 Pluto 2376 February 18, 1930 Pluto Kuiper Express 2004 [61]
162173 Ryugu 0.9 May 10, 1999 Marco Polo 2018-2020
162173 Ryugu 0.9 May 10, 1999 Asteroid Redirect Mission 2021 [62]
2001 SG286 Marco Polo 2018-2020
2001 SK162 Marco Polo 2018-2020
(55637) 2002 UX25 ~0.69 October 30, 2002 New Horizons 2 [63]
(65679) 1989 UQ Marco Polo 2018-2020
(175706) 1996 FG3 1.7 March 24, 1996 Marco Polo 2018-2020
(341843) 2008 EV5 0.4 March 4, 2008 Marco Polo 2018-2020
(341843) 2008 EV5 0.4 March 4, 2008 Asteroid Redirect Mission 2021 [56]
(612600) 2003 SM84 0.086-0.16 September 20, 2003 Don Quijote 2015 [59]

See also



References


  1. "Chang'e 2 images of Toutatis". Planetary.org.
  2. Rincon, Paul (22 February 2019). "Hayabusa-2: Japan spacecraft touches down on asteroid". BBC News. Retrieved 22 June 2019.
  3. Yoshimitsu, Tetsuo; Kubota, Takashi; Tsuda, Yuichi; Yoshikawa, Makoto. "MINERVA-II1: Successful image capture, landing on Ryugu and hop!". hayabusa2.jaxa.jp. JAXA. Retrieved 24 September 2018.
  4. "Hayabusa-2: Capsule with asteroid samples in 'perfect' shape". BBC News. 6 December 2020. Retrieved 9 December 2020.
  5. "NASA'S OSIRIS-REx Spacecraft Arrives at Asteroid Bennu". NASA. 3 December 2018. Retrieved 20 December 2018. This article incorporates text from this source, which is in the public domain.
  6. "NASA's OSIRIS-REx Mission Breaks Another Orbit Record". NASA. 13 June 2019. Retrieved 22 June 2019. This article incorporates text from this source, which is in the public domain.
  7. Miriam Kramer (26 March 2013). "Asteroid Deflection Mission AIDA Set To Crash Two Spacecraft Into Space Rock In 2022". Huffington Post. Retrieved 19 September 2014.
  8. Rivkin, Andy (27 September 2018). "Asteroids have been hitting the Earth for billions of years. In 2022, we hit back". Applied Physics Laboratory. Archived from the original on 31 October 2018. Retrieved 31 October 2018.
  9. "45 Years Ago, Pioneer 10 First to Explore Jupiter". 3 December 2018. It [pioneer 10] passed within 5.5 million miles of an unnamed 0.5-mile diameter asteroid on Aug. 2
  10. Fimmel, Richard O.; van Allen, James; Burgess, Eric (1980). Pioneer: first to Jupiter, Saturn, and beyond. Washington D.C., USA: NASA Scientific and Technical Information Office.
  11. "Deep Space 1". Goddard Space Flight Center. NASA. 26 August 2014. NSSDC/COSPAR ID: 1998-061A. Retrieved 1 July 2015.
  12. "Rosetta spacecraft sees its shadow on a comet (photo)". Space.com. 5 March 2015. Rosetta flew just 3.7 miles (6 kilometers) from Comet 67P's surface, resulting in a resolution of 4.3 inches (11 centimeters) per pixel [for OSIRIS].
  13. "C/2013 A1 (Siding Spring)". JPL Close-Approach Data. 9 February 2014. Retrieved 19 February 2013. last obs (arc=493 days w/619 obs)
  14. Grossman, Lisa (6 December 2013). "Fiercest meteor shower on record to hit Mars via comet". New Scientist. Archived from the original on 12 December 2013.
  15. Chang, Kenneth (6 January 2017). "A Metal Ball the Size of Massachusetts That NASA Wants to Explore". The New York Times. Retrieved 6 January 2017.
  16. Levison, H. F.; Olkin, C.; Noll, K. S.; Marchi, S.; Lucy Team (March 2017). "Lucy: Surveying the Diversity of the Trojan Asteroids: The Fossils of Planet Formation" (PDF). 48th Lunar and Planetary Science Conference (1964): 2025. Bibcode:2017LPI....48.2025L. Retrieved 13 April 2017.
  17. Toyota, Hiroyuki; Nishiyama, Kazutaka; Kawakatsu, Yasuhiro (15 August 2017). "DESTINY+: Deep Space Exploration Technology Demonstrator and Explorer to Asteroid 3200 Phaethon" (PDF). Low-Cost Planetary Missions Conference. Retrieved 21 September 2017.
  18. "JPL Small-Body Database Browser: 52246 Donaldjohanson (1981 EQ5)" (29 July 2019 last obs.). Jet Propulsion Laboratory.
  19. "Hera". www.esa.int. Retrieved 2 May 2022.
  20. Michel, Patrick; Küppers, Michael; Bagatin, Adriano Campo; Carry, Benoit; Charnoz, Sébastien; Leon, Julia de; Fitzsimmons, Alan; Gordo, Paulo; Green, Simon F.; Hérique, Alain; Juzi, Martin; Karatekin, Özgür; Kohout, Tomas; Lazzarin, Monica; Murdoch, Naomi; Okada, Tatsuaki; Palomba, Ernesto; Pravec, Petr; Snodgrass, Colin; Tortora, Paolo; Tsiganis, Kleomenis; Ulamec, Stephan; Vincent, Jean-Baptiste; Wünnemann, Kai; Zhang, Yun; Raducan, Sabina D.; Dotto, Elisabetta; Chabot, Nancy; Cheng, Andy F.; Rivkin, Andy; Barnouin, Olivier; Ernst, Carolyn; Stickle, Angela; Richardson, Derek C.; Thomas, Cristina; Arakawa, Masahiko; Miyamoto, Hirdy; Nakamura, Akiko; Sugita, Seiji; Yoshikawa, Makoto; Abell, Paul; Asphaug, Erik; Ballouz, Ronald-Louis; Bottke, William F.; Lauretta, Dante S.; Walsh, Kevin J.; Martino, Paolo; Carnelli, Ian (1 July 2022). "The ESA Hera Mission: Detailed Characterization of the DART Impact Outcome and of the Binary Asteroid (65803) Didymos". The Planetary Science Journal. 3 (7): 160. doi:10.3847/psj/ac6f52. ISSN 2632-3338.
  21. Gough, Evan (25 September 2020). "Hayabusa2's Mission isn't Over. It has a New Asteroid Target to Visit: 1998 KY26". Universe Today. Retrieved 30 October 2020.
  22. "NASA gives green light for OSIRIS-REx spacecraft to visit another asteroid". University of Arizona News. 25 April 2022. Retrieved 25 April 2022.
  23. Jones, Andrew (5 August 2020). "China is moving ahead with lunar south pole and near-Earth asteroid missions". Space News. Retrieved 5 August 2020.
  24. "NASA Solar Sail Mission to Chase Tiny Asteroid After Artemis I Launch". Jet Propulsion Laboratory. NASA. 20 January 2022. Retrieved 20 February 2022. The target is 2020 GE, a near-Earth asteroid (NEA) that is less than 60 feet (18 meters) in size.
  25. Centaurus: Exploring Centaurs and More, Messengers from the Era of Planet Formation. Kelsi N. Singer, S. Alan Stern, Daniel Stern, Anne Verbiscer, Cathy Olkin, and the Centaurus Science Team. (EPSC Abstracts Vol. 13, EPSC-DPS2019-2025-1, 2019 EPSC-DPS Joint Meeting 2019). Retrieved 6 October 2019.
  26. Avdellidou, C.; Pajola, M.; Lucchetti, A.; Agostini, L.; Delbo, M.; Mazzotta Epifani, E.; Bourdelle De Micas, J.; Devogèle, M.; Fornasier, S.; Van Belle, G.; Bruot, N.; Dotto, E.; Ieva, S.; Cremonese, G.; Palumbo, P. (2021). "Characterisation of the main belt asteroid (223) Rosa". Astronomy & Astrophysics. 656: L18. Bibcode:2021A&A...656L..18A. doi:10.1051/0004-6361/202142600. S2CID 244753425.
  27. Howell, Samuel M.; Chou, Luoth; Thompson, Michelle; Bouchard, Michael C.; Cusson, Sarah; Marcus, Matthew L.; Smith, Harrison B.; Bhattaru, Srinivasa; Blalock, John J.; Brueshaber, Shawn; Eggl, Siegfried; Jawin, Erica R.; Miller, Kelly; Rizzo, Maxime; Steakley, Kathryn; Thomas, Nancy H.; Trent, Kimberly R.; Ugelow, Melissa; Budney, Charles J.; Mitchell, Karl L.; Lowes, Leslie (December 2018). "Camilla: A centaur reconnaissance and impact mission concept" (PDF). Planetary and Space Science. 164: 184–193. Bibcode:2018P&SS..164..184H. doi:10.1016/j.pss.2018.07.008. S2CID 126013385. Retrieved 17 April 2022.
  28. Wu, Weiren; Yu, Dengyun; Huang, Jiangchuan; Zong, Qiugang; Wang, Chi; Yu, Guobin; He, Rongwei; Wang, Qian; Kang, Yan; Meng, Linzhi; Wu, Ke; He, Jiansen; Li, Hui (2019). "Exploring the solar system boundary". Scientia Sinica Informationis. 49: 1. doi:10.1360/N112018-00273. S2CID 86476811.
  29. "China to launch a pair of spacecraft towards the edge of the solar system". 16 April 2021.
  30. China working on asteroid sample return mission; will study long-term projects. Andrew Jones, GB Times. |12 May 2017.
  31. de Brum, Antonio G. V.; Hussmann, Hauke; Wickhusen, Kai; Stark, Alexander (1 January 2021). "Encounter trajectories for deep space mission ASTER to the triple near Earth asteroid 2001-SN263. The laser altimeter (ALR) point of view". Advances in Space Research. 67 (1): 648–661. Bibcode:2021AdSpR..67..648D. doi:10.1016/j.asr.2020.10.042. ISSN 0273-1177.
  32. INVESTIGATION OF THE SOLAR SYSTEM DISK STRUCTURE DURING THE CRUISING PHASE OF THE SOLAR POWER SAIL MISSION. (PDF). T. Iwata, T. Okada, S. Matsuura, K. Tsumura, H. Yano, T. Hirai, A. Matsuoka, R. Nomura, D. Yonetoku, T. Mihara, Y. Kebukawa, M. ito, M. Yoshikawa, J. Matsu-moto, T. Chujo, and O. Mori. 49th Lunar and Planetary Science Conference 2018 (LPI Contrib. No. 2083).
  33. "CONTOUR - Mishap Investigation Board Report (PDF) Archived 2006-01-03 at the Wayback Machine. NASA. May 31, 2003. Retrieved 2012-01-19.
  34. Farquhar, Robert; Jen, Shao-Chiang; McAdams, Jim V. (1 January 1993). "Extended-mission opportunities for a Discovery-class asteroid rendezvous mission". NASA STI/Recon Technical Report A. 95: 435–447. Bibcode:1993STIA...9581370F. ISSN 0065-3438. Retrieved 17 April 2022.
  35. "Solar System Exploration - Suisei". NASA. Archived from the original on 20 August 2004. Retrieved 23 April 2013.
  36. "HubbleSite - NewsCenter - Hubble Assists Rosetta Comet Mission (09/05/2003) - Release Text". HubbleSite. 15 November 2014. Archived from the original on 15 November 2014. Retrieved 25 April 2022.
  37. "ESA Science & Technology - Rosetta goes to Comet Wirtanen". sci.esa.int.
  38. "NASA - EPOXI Mission - Mission". epoxi.astro.umd.edu. Retrieved 25 April 2022.
  39. Luigi Colangeli, Elena Mazzotta Epifani, Pasquale Palumbo, The New Rosetta Targets: Observations, Simulations and Instrument Performances, pp. 71-72, Springer Verlag, 2013.
  40. "New Horizons Receives Mission Extension to Kuiper Belt, Dawn to Remain". July 2016.
  41. Bartels, Meghan (12 August 2020). "Japan may extend Hayabusa2 asteroid mission to visit 2nd space rock". Space.com. Retrieved 13 August 2020.
  42. Ulivi, Paolo; Harland, David M (2009). Robotic Exploration of the Solar System Part 2 Hiatus and Renewal. Praxis Publishing. pp. 90–92. ISBN 9780387789040.
  43. 2530 Shipka, JPL Small-Body Database Browser
  44. Moore, Patrick, The Data Book of Astronomy, Jan 2000, page 139
  45. 3840 Mimistrobell, JPL Small-Body Database Browser
  46. "The delay in the launch of Psyche led to a revision of the objectives of the Janus mission". The Universemagazine Space Tech. 10 June 2022. Retrieved 15 June 2022.
  47. Sarli, Bruno Victorino; Tsuda, Yuichi (September 2017). "Hayabusa 2 extension plan: Asteroid selection and trajectory design". Acta Astronautica. 138: 225–232. Bibcode:2017AcAau.138..225S. doi:10.1016/j.actaastro.2017.05.016.
  48. "Due to ion engine failure, PROCYON will not fly by an asteroid". The Planetary Society.
  49. Poncy, J; Grasset, Oliver; Martinot, V; Gabriel, Gabriel (September 2008). "Preliminary assessment of a Ceres Polar Lander mission". European Planetary Science Congress: 403. Bibcode:2008epsc.conf..403P.
  50. Gassot, Oriane (April 2021). "Calathus: A sample-return mission to Ceres". Acta Astronautica. 181: 112–129. Bibcode:2021AcAau.181..112G. doi:10.1016/j.actaastro.2020.12.050. hdl:10141/622884. S2CID 234121413.
  51. "Planetary Science Division Update" (PDF). NASA. Archived from the original (PDF) on 14 November 2011. Retrieved 23 May 2011.
  52. Squyres, Steve (2018). CAESAR: Project Overview (PDF). 18th Meeting of the NASA Small Bodies Assessment Group. 17-18 January 2018. Ames Research Center, California. Lunar and Planetary Institute.
  53. COmet Nucleus Dust and Organics Return (CONDOR): a New Frontiers 4 Mission Proposal. (PDF) M. Choukroun, C. Raymond, M. Wadhwa. EPSC Abstracts. Vol. 11, EPSC2017-413, 2017. European Planetary Science Congress 2017.
  54. CORSAIR (COmet Rendezvous, Sample Acquisition, Investigation, and Return): A New Frontiers Mission Concept to Collect Samples from a Comet and Return them to Earth for Study (PDF). S. A. Sandford, N. L. Chabot, N. Dello Russo, J. C. Leary, E. L. Reynolds, H. A. Weaver, D. H. Wooden. 80th Annual Meeting of the Meteoritical Society 2017 (LPI Contrib. No. 1987).
  55. Snodgrass, C.; Jones, G. H.; Boehnhardt, H.; Gibbings, A.; Homeister, M.; Andre, N.; Beck, P.; Bentley, M. S.; Bertini, I.; Bowles, N.; Capria, M. T.; Carr, C.; Ceriotti, M.; Coates, A. J.; Della Corte, V.; Donaldson Hanna, K. L.; Fitzsimmons, A.; Gutiérrez, P. J.; Hainaut, O. R.; Herique, A.; Hilchenbach, M.; Hsieh, H. H.; Jehin, E.; Karatekin, O.; Kofman, W.; Lara, L. M.; Laudan, K.; Licandro, J.; Lowry, S. C.; Marzari, F.; Masters, A.; Meech, K. J.; Moreno, F.; Morse, A.; Orosei, R.; Pack, A.; Plettemeier, D.; Prialnik, D.; Rotundi, A.; Rubin, M.; Sánchez, J. P.; Sheridan, S.; Trieloff, M.; Winterboer, A. (15 October 2018). "The Castalia mission to Main Belt Comet 133P/Elst-Pizarro". Advances in Space Research. 62 (8): 1947–1976. arXiv:1709.03405. Bibcode:2018AdSpR..62.1947S. doi:10.1016/j.asr.2017.09.011. S2CID 55821241.
  56. Northon, Karen (27 March 2015). "NASA Announces Progress on Asteroid Initiative". NASA. Retrieved 25 April 2022.
  57. Czysz, Paul A.; Bruno, Claudio (20 March 2009). Future Spacecraft Propulsion Systems: Enabling Technologies for Space Exploration. Springer. p. 378. ISBN 9783540888147.
  58. "Final Report of the New Horizons II Review Panel" (PDF).
  59. "Sancho study: designing the minimum Earth escape spacecraft". ESA. 23 May 2012. Archived from the original on 15 May 2015. Retrieved 17 June 2015.
  60. Khartoum, Sarah (15 March 2018). "Nasa draws up plans for huge spacecraft to blow up doomsday asteroid". The Telegraph. Retrieved 17 March 2018.
  61. John Noble Wilford (11 September 1992). "NASA plans quick visit to edge of solar system". The Gainesville Sun. New York Times News Service. p. 9A. Retrieved 1 August 2015.
  62. Gates, Michele (28 July 2015). "Asteroid Redirect Mission Update" (PDF). NASA. Retrieved 6 September 2015.
  63. Portree, David S. F. "No Shortage of Dreams: New Horizons II (2004-2005)".

На других языках

[de] Chronologie der Raumsonden zu Kometen und Asteroiden

Diese Liste führt chronologisch geordnet nach ihrem Start von der Erde alle Raumsonden auf, die mit dem Ziel gestartet wurden, einen Asteroiden oder Kometen zu erreichen.
- [en] List of minor planets and comets visited by spacecraft


Текст в блоке "Читать" взят с сайта "Википедия" и доступен по лицензии Creative Commons Attribution-ShareAlike; в отдельных случаях могут действовать дополнительные условия.

Другой контент может иметь иную лицензию. Перед использованием материалов сайта WikiSort.org внимательно изучите правила лицензирования конкретных элементов наполнения сайта.

2019-2024
WikiSort.org - проект по пересортировке и дополнению контента Википедии