List of proposed missions to the outer planets
From Wikipedia, the free encyclopedia
The list of proposed missions to the outer planets is a listing of concept studies for an uncrewed or crewed mission to gas giants. Proposed missions to gas giants are typically based on engineering and scientific assessments of technological capabilities at the time of study. These proposals are usually associated with high-budget space agencies like NASA. Mission profiles may include strategies such as flybys, landers, or other types of system encounters aimed at exploring a gas giant and its moons. The missions that were launched can be found in the list of missions to the outer planets.
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History
In February 1969, NASA approved two spacecraft missions under the Pioneer program, managed by Ames Research Center (ARC), to explore Jupiter. In 1970, NASA granted a contract to the TRW Company of Redondo Beach, California, to construct the spacecraft. NASA initially directed the TRW Company to develop the Pioneer spacecraft to ensure that future missions could withstand the intense radiation belts of Jupiter.[1] Each spacecraft was equipped with 11 instruments to conduct close-up studies of Jupiter and interplanetary space during transit. Pioneer 10 was launched in 1972 from Cape Canaveral Launch Complex 36A, with the goal of exploring Jupiter, its moons, magnetic field, and radiation belts. During its closest approach on 3 December, it passed within 82,178 mi (132,253 km) of Jupiter, collecting data on the planet and its moons, ultimately transmitting over 500 images by 2 January 1974.[2]
In 1973, Pioneer 11 launched from Cape Canaveral Launch Complex 36B as a backup to the Pioneer 10 spacecraft. By May 1974, the mission trajectory was adjusted to include a gravity assist from Jupiter, redirecting it toward Saturn. On 2 December 1974, Pioneer 11 made a close flyby of Jupiter, passing beneath the planet's southern pole before being propelled toward Saturn through its northern pole. On 1 September 1979, Pioneer 11 passed within 13,000 mi (21,000 km) of Saturn's cloud tops.
In August 1977, Voyager 2 launched from Cape Canaveral Space Force Station to explore Jupiter, Saturn, Uranus, and Neptune during a rare 175-year planetary alignment.[4] The following month, Voyager 1 was launched from the same location.
In March 1979, Voyager 1 made its close approach to Jupiter, capturing detailed images of the planet and its moons, with Voyager 2 conducting its flyby four months later. In November 1980, Voyager 1 flew by Saturn, using a gravity assist to explore Titan before traveling north out of the ecliptic plane.[5]
Voyager 2 followed with its own Saturn flyby nine months later, in August 1981, using a gravity assist to set a course for Uranus. In January 1986, Voyager 2 became the first spacecraft to visit Uranus, discovering 10 new moons, 2 new rings, and revealing a magnetic field that was both tilted 55 degrees off its axis and off-center from the planet's core. In August 1989, Voyager 2 conducted its final flyby of a planet, passing by Neptune and its moon Triton, revealing its active geology, including geysers of nitrogen gas. The gravity assist from Neptune sent Voyager 2 traveling south of the ecliptic plane.[6]
In October 1989, the Galileo spacecraft was launched from Kennedy Space Center's Complex 39B. Designed to study Jupiter, its moons, and its surrounding environment, Galileo was the first spacecraft to orbit an outer planet. The mission also included encounters with the asteroids 951 Gaspra and 243 Ida. On 7 December 1995, the Galileo spacecraft reached Jupiter after gravitational assist flybys of Venus and Earth.[7] After eight years in Jupiter's orbit, Galileo was intentionally destroyed in Jupiter's atmosphere on 21 September 2003, to avoid contaminating potentially habitable moons. The next orbiter to visit Jupiter was NASA's Juno, which arrived on 5 July 2016.
In October 1990, the Ulysses spacecraft was launched from Kennedy Space Center's Complex 39B on a mission to study the Sun at all latitudes.[8] To accomplish this, Ulysses needed to achieve an orbital inclination of about 80°, which required a significant change in heliocentric velocity. Since the energy required for this inclination change was beyond the capabilities of any available launch vehicle, mission planners used a gravity assist from Jupiter. In February 1992, Ulysses passed close to Jupiter, utilizing its gravity to alter its trajectory and propel it into a high-inclination orbit around the Sun. This enabled the spacecraft to study the Sun's polar regions. Given its distance from the Sun during the mission, Ulysses could not rely on solar panels for power. Instead, it was equipped with a General Purpose Heat Source Radioisotope Thermoelectric Generator (RTG).[9]
In October 1997, the Cassini–Huygens spacecraft was launched from Cape Canaveral Space Launch Complex 40. The mission was designed to study Saturn and its system, including its rings and moons. The Flagship-class robotic spacecraft consisted of NASA's Cassini orbiter and ESA's Huygens lander, which landed on Saturn's largest moon, Titan.[11] Cassini became the fourth space probe to visit Saturn and the first to enter its orbit, where it operated from 2004 to 2017. The spacecraft's journey to Saturn included flybys of Venus in April 1998 and June 1999, Earth in August 1999, the asteroid 2685 Masursky, and Jupiter in December 2000. Cassini entered Saturn's orbit on 1 July 2004. The mission concluded on 15 September 2017, when Cassini was deliberately sent into Saturn's upper atmosphere to burn up, ensuring that Saturn's moons, which may harbor habitable environments, would not be contaminated.[12][13]
In January 2006, the New Horizons spacecraft was launched from Cape Canaveral Space Launch Complex 41 on a mission to visit Pluto. To accelerate toward its target, the spacecraft used an Earth-and-solar escape trajectory, achieving a speed of approximately 16.26 km/s (10.10 mi/s; 58,500 km/h; 36,400 mph), and later performed a gravity assist flyby of Jupiter.[14][15][16][17] Before reaching Jupiter, New Horizons had a brief encounter with the asteroid 132524 APL. New Horizons made its closest approach to Jupiter on 28 February 2007, at a distance of 2.3 million kilometers (1.4 million miles). The gravity assist from Jupiter increased the spacecraft's speed and allowed it to continue on its trajectory toward Pluto. The flyby also served as a comprehensive test of New Horizons' scientific instruments, returning valuable data on Jupiter's atmosphere, moons, and magnetosphere. On 14 July 2015, at 11:49 UTC, New Horizons flew 12,500 km (7,800 mi) above Pluto's surface,[18][19] which at the time was 34 AU from the Sun.[20]
In August 2011, the Juno spacecraft was launched from Cape Canaveral Space Force Station Space Launch Complex 41 on a mission to study Jupiter. Juno spent five years traveling to Jupiter,[21] accomplishing a gravity assist from Earth in October 2013.[22] Upon arrival at Jupiter, the spacecraft performed an orbit insertion burn, reducing its speed to be captured by the planet's gravity.[23] The mission was originally scheduled to conclude in February 2018 after completing 37 orbits of Jupiter. However, the mission was extended through 2025 to conduct 42 additional orbits, including close flybys of Jupiter's moons Ganymede, Europa, and Io.[24] At the end of its mission, Juno is planned to be deorbited and burned up in Jupiter's outer atmosphere[25][26] to suppress the risk of biological contamination of its moons.[27]
In October 2021, the Lucy spacecraft was launched from Cape Canaveral Space Force Station Space Launch Complex 41 on a mission to study eight different asteroids, including two main-belt asteroids and six Jupiter trojans.[28][29] The spacecraft performed its first Earth gravity assist on 16 October 2022.[30] In 2023, Lucy flew by the asteroid 152830 Dinkinesh,[31] and conducted a second gravity assist from Earth in 2024.[32] In 2025, it flew past the inner main-belt asteroid 52246 Donaldjohanson.[33] In 2027, Lucy is scheduled to reach the L4 Trojan cloud and conduct flybys of four Trojans: 3548 Eurybates and its satellite, 15094 Polymele, 11351 Leucus, and 21900 Orus.[34] After these encounters, the spacecraft will return to Earth in 2031 for another gravity assist, which will send it toward the L5 Trojan cloud. In 2033, Lucy is scheduled to fly by the binary Trojan 617 Patroclus and its satellite Menoetius. The mission is expected to conclude with the Patroclus–Menoetius flyby, but at that point, Lucy will remain in a stable, six-year orbit between the L4 and L5 Trojan clouds, leaving the possibility open for a mission extension.[citation needed]
As of December 2024, two spacecraft are en route to Jupiter: the Jupiter Icy Moons Explorer (JUICE) and the Europa Clipper. Both missions aim to study Jupiter and its moons, with JUICE focusing on Ganymede, Callisto, and Europa,[35] and the Europa Clipper specifically targeting Europa's potential habitability.[36]
Jupiter
Eight spacecraft have been launched to explore Jupiter, along with two others completing gravity-assist flybys.
| Mission | Spacecraft | Launch date | Carrier rocket | Operator | Mission Type | Outcome | |
|---|---|---|---|---|---|---|---|
| 1 | Argo | Argo | c. 2020s | N/A |  NASA |
Flyby | Not selected |
| Cancelled due to shortage of plutonium-238 required for the radioisotope thermoelectric generators (RTG).[37] Proposed to have used a Jupiter gravity assist to propel it toward Saturn. | |||||||
| 2 | BRUIE | Buoyant Rover for Under-Ice Exploration | N/A | N/A | NASA |
Lander | Not selected |
| Currently in progress, with potential plans to explore Europa and Enceladus.[38] | |||||||
| 3 | Europa Jupiter System Mission - Laplace | Europa Jupiter System Mission - Laplace | circa 2020 | N/A | NASA /  ESA |
Orbiter | Not selected |
| Joint NASA-ESA mission including NASA-led JEO and ESA-led JGO components.[39][40] | |||||||
| 3 | Europa Lander | Europa Lander | 2025–2030 | Space Launch System or a commercial rocket | NASA |
Lander | Not selected |
| Would depend on the Europa Clipper to select a landing site and assess radiation levels. Once landed, it would search for biosignatures and authenticate and determine the proximity of liquid water. | |||||||
| 5 | Europa Orbiter | Europa Orbiter | 2003 | Space Shuttle | NASA |
Orbiter | Not selected |
| Canceled in 2002 due to concerns over extreme radiation levels near Jupiter.[41] Would have determined the presence of a subsurface ocean and identified potential sites for future lander missions.[42] | |||||||
| 6 | Jovian Europa Orbiter | Jovian Europa Orbiter | N/A | N/A | ESA |
Orbiter | Not selected |
| Cancelled and superseded by EJSM. | |||||||
| 7 | Flyby of Io with Repeat Encounters | Flyby of Io with Repeat Encounters | 2024 | Atlas V | NASA |
Orbiter | Not selected |
| Would use three gravity assists to reach Jupiter in six years,[43] orbit the planet, and conduct 10 close flybys of Io, some at altitudes as low as 100 km (62 mi).[43][44] | |||||||
| 8 | Innovative Interstellar Explorer | Innovative Interstellar Explorer | c. 2014[45] | Delta IV Heavy with a stack of Star 48 and Star 37 or the Atlas V 551 with a Star 48.[46] | NASA |
Flyby | Not selected |
| Cancelled due to missed launch windows and unavailable materials.[47] Planned to use a Jupiter gravity assist to reach interstellar space and study magnetic fields, cosmic rays, and their effects on a spacecraft exiting the Solar System.[48] | |||||||
| 9 | Interstellar Probe | Interstellar Probe | Between 2036 and 2041 | Space Launch System Block 2 | NASA |
Flyby | Proposed |
| Designed to explore and study the heliosphere and interstellar space,[49] using a Jupiter gravity assist to increase its speed, after which the probe would travel at approximately 6–7 AU (560,000,000–650,000,000 mi; 900,000,000–1.05×109 km) per year, exiting the heliosphere within 16 years.[50] | |||||||
| 10 | Io Volcano Observer | Io Volcano Observer | January 2029[51] | N/A | NASA |
Flyby | Not selected |
| Designed to study tidal heating as a key planetary process, investigating where and how it is generated within Io, how it reaches the surface, and how Io evolves over time.[51] | |||||||
| 11 | Jupiter Europa Orbiter | Jupiter Europa Orbiter | 2020 | Delta IV Heavy or Atlas V | NASA |
Orbiter | Not selected |
| Canceled after NASA approved the Europa Clipper mission.[52] It was intended to study Europa, Io, and Jupiter's magnetosphere.[53] | |||||||
| 12 | Jupiter Ganymede Orbiter | Jupiter Ganymede Orbiter | 2020 | Ariane 5 | ESA |
Orbiter | Not selected |
| Canceled after being superseded by the Jupiter Icy Moons Explorer mission in a vote.[54] It was intended to study Ganymede, Callisto, and Jupiter's magnetosphere. | |||||||
| 13 | Jupiter Icy Moons Orbiter | Jupiter Icy Moons Orbiter | May 2015 – January 2016 | Delta IV Heavy Baseline | NASA |
Orbiter | Not selected |
| Canceled due to a shift in NASA's priorities, which favored crewed space missions instead.[55] The probe would have confirmed the potential existence of a subsurface ocean beneath Europa's surface, with Ganymede and Callisto also being targeted for exploration. | |||||||
| 14 | Jupiter Magnetospheric Orbiter | Jupiter Magnetospheric Orbiter | 2020 | N/A |  JAXA |
Orbiter | Not selected |
| Canceled due to JAXA's inability to launch the mission in time for cooperative observation with JUICE. It would have studied Jupiter's magnetosphere as a model for an astrophysical magnetized disk.[56] | |||||||
| 15 | Laplace-P | Laplace-P | 2026[57] | Angara A5 with the KVTK upper stage[58] |  Roscosmos |
Lander | Not selected |
| Canceled in 2017 due to funding issues.[59] It was designed to study the Jovian moon system and include a lander for Ganymede exploration. | |||||||
| 16 | New Horizons 2 | New Horizons 2 | N/A | N/A | NASA |
Flyby | Not selected |
| Cancelled due to shortage of plutonium-238 required for the radioisotope thermoelectric generators (RTG).[60] The mission would have used a Jupiter gravity assist[61] and a Uranus flyby to reach and explore Kuiper belt objects.[62] | |||||||
| 17 | OKEANOS | Oversize Kite-craft for Exploration and Astronautics in the Outer Solar system | 2026 | H-IIA or H3[63] | JAXA |
Flyby | Not selected |
| Cancelled after being superseded by LiteBIRD in a vote.[64][65][66] Would have studied Jupiter's Trojan asteroids using a hybrid solar sail for propulsion.[67] | |||||||
| 18 | Pioneer H | Pioneer H | 1974 | N/A | NASA |
Flyby | Not selected |
| Cancelled as the mission proposal was never accepted by NASA. It would have flown by Jupiter as a third Pioneer probe alongside Pioneer 10 and 11. The spacecraft now resides in the National Air and Space Museum in Washington, D.C.[68] | |||||||
| 19 | Shensuo | Shensuo | May 2024[69][70] | N/A |  CNSA |
Flyby | Proposed |
| The IHP-1 and IHP-2 missions will use Jupiter gravity assists to accelerate into interstellar space.[71][70] Once there, they will study anomalous cosmic rays, interplanetary dust, and the interstellar medium.[71] | |||||||
| 20 | SMARA | SMARA | N/A | N/A | ESA |
Entry probe | Not selected |
| Microprobes proposed to launch with the Jupiter Icy Moons Explorer, designed to study Jupiter's atmosphere and capture photographs during descent.[72] | |||||||
| 21 | Tianwen-4 | Tianwen-4 | September 2029[73] | Long March 5 | CNSA |
Orbiter | Planned |
| Will investigate magnetic field interactions with plasma in the Jovian system, analyze atmospheric composition, study the internal structures and surfaces of Ganymede or Callisto, and examine the space environment around the Galilean moons.[74] | |||||||
| 22 | Trident | Trident | 25 October 2025 with a backup in October 2026[75] | N/A | NASA |
Flyby | Not selected |
| Proposed mission to study Triton's surface and cryovolcanism, using a Jupiter gravity assist and a flyby of Io in 2032 to accelerate toward Neptune.[76] | |||||||
| 23 | Tsiolkovsky mission | Tsiolkovsky mission | c. 1990s | N/A |  Soviet space program |
Flyby | Cancelled |
| Proposed mission to use a Jupiter gravity assist to approach within five to seven solar radii to study the Sun, with a derivative spacecraft potentially targeting Saturn and beyond.[77] | |||||||
Saturn
One spacecraft has been launched to orbit Saturn, along with three others completing gravity-assist flybys.
| Mission | Spacecraft | Launch date | Carrier rocket | Operator | Mission Type | Outcome | |
|---|---|---|---|---|---|---|---|
| 1 | AVIATR | Aerial Vehicle for In situ and Airborne Titan Reconnaissance | 2020[78] | Atlas V 521[79] | NASA |
Lander | Not selected |
| Cancelled as the National Research Council's “Decadal Survey” did not prioritize Titan exploration, and development of the advanced Stirling radioisotope generator was halted.[78][80] The mission proposed an airplane concept for exploring Saturn's moon Titan.[79] | |||||||
| 2 | Breakthrough Enceladus mission | Breakthrough Enceladus mission | N/A | N/A | Breakthrough Initiatives |
Orbiter | Proposed |
| Proposed to search for life on Saturn's moon Enceladus[81][82] by detecting microbes in its water plumes[83] and using ice-penetrating radar to study the moon's subsurface ocean.[84] | |||||||
| 3 | Dragonfly | Dragonfly | 5–25 July 2028[85] | Falcon Heavy[85] | NASA |
Lander | Planned |
| Part of the New Frontiers program, the mission will deploy a robotic rotorcraft to Saturn's moon Titan to evaluate its potential for microbial habitability and investigate its prebiotic chemistry across multiple sites.[86][87] | |||||||
| 4 | Enceladus Explorer | Enceladus Explorer | N/A | N/A |  German Aerospace Center and seven German universities[88][89] |
Orbiter and lander | Not selected |
| Funded by the German Aerospace Center, the mission is a research collaboration among seven German universities. It includes a lander equipped with the IceMole probe and an orbiter designed primarily to serve as a communications relay between the lander and Earth.[88][89] | |||||||
| 5 | Enceladus Icy Jet Analyzer | Enceladus Icy Jet Analyzer | N/A | N/A | NASA |
Orbiter | Not selected |
| Proposed time-of-flight mass spectrometer mission designed to detect prebiotic molecules, such as amino acids, and biosignatures in the plumes of Saturn's moon Enceladus.[90] | |||||||
| 6 | Enceladus Life Finder | Enceladus Life Finder | N/A | N/A | NASA |
Orbiter | Not selected |
| Designed to evaluate the habitability of Enceladus's subsurface ocean.[91][92] | |||||||
| 7 | Enceladus Life Signatures and Habitability | Enceladus Life Signatures and Habitability | N/A | N/A | NASA |
Orbiter | Not selected |
| Proposed to search for biosignatures and assess Enceladus's habitability.[93][94] | |||||||
| 8 | Enceladus Orbilander | Enceladus Orbilander | October 2038[95] | Space Launch System Block 2 | NASA |
Orbiter and lander | Proposed |
| Planned to orbit Enceladus for 18 months to sample its water plumes, followed by a two-year surface mission to analyze materials for signs of life.[95] | |||||||
| 9 | Explorer of Enceladus and Titan | Explorer of Enceladus and Titan | N/A | N/A | ESA/NASA |
Orbiter | Not selected |
| Proposed to study the origin and evolution of volatile-rich icy worlds by examining Enceladus and Titan, assess their habitability and potential for life, and explore Titan as an Earth-like world with a dynamic climate and landscape.[96] | |||||||
| 10 | Journey to Enceladus and Titan | Journey to Enceladus and Titan | N/A | N/A | NASA |
Orbiter | Not selected |
| Cancelled after being superseded by Lucy in a vote.[97][98] The mission aimed to conduct high-resolution mass spectroscopy mapping to analyze the processes shaping Saturn's moons, while assessing the habitability potential of Enceladus and Titan.[99][100] | |||||||
| 11 | Kronos | Kronos | N/A | N/A | ESA/NASA |
Orbiter | Not selected |
| Proposed to analyze Saturn's atmospheric composition, gravity, and magnetic fields, with two atmospheric probes aiding in close-up imaging of its rings.[101] | |||||||
| 12 | L4 | Unnamed mission | 2042 | N/A | ESA |
Orbiter and lander | Proposed |
| In 2024, ESA named a mission to Enceladus its top priority for a large mission. Currently known as L4, it is proposed to include an orbiter and a lander.[102][103] | |||||||
| 13 | Life Investigation For Enceladus | Life Investigation For Enceladus | Late 2021[104] | N/A | NASA |
Orbiter | Not selected |
| Proposes sending a robotic spacecraft to collect particles from Saturn's moon Enceladus and return them to Earth for detailed analysis, searching for biomolecules and potential signs of life.[105][106][107][108] | |||||||
| 14 | Moonraker | Moonraker | N/A | N/A | ESA |
Flyby | Not selected |
| Concept study of a flyby mission to study Enceladus in search for habitability.[109] | |||||||
| 15 | Oceanus | Oceanus | February 2024 | N/A | NASA |
Orbiter | Not selected |
| Cancelled as it was not selected for development under the New Frontiers program. Proposed to travel to Saturn's moon Titan to evaluate its habitability.[110] | |||||||
| 16 | Saturn Atmospheric Entry Probe | Saturn Atmospheric Entry Probe | 30 August 2027 | N/A | NASA |
Entry probe | Not selected |
| Proposes robotic spacecraft designed to deploy a single probe into Saturn's atmosphere for in-depth study.[111][112][113] | |||||||
| 17 | SPRITE | Saturn PRobe Interior and aTmospheric Explorer | November 2024 | Atlas V 401 | NASA |
Entry probe | Not selected |
| Canceled after not being selected for development under the New Frontiers program.[114] The probe would have been an atmospheric entry probe designed to travel independently to Saturn, enter its atmosphere, and collect in situ measurements during descent. | |||||||
| 18 | THEO | Testing the Habitability of Enceladus's Ocean | TBD | N/A | NASA |
Orbiter | Not selected |
| Evaluates ocean habitability of Enceladus.[115] | |||||||
| 19 | Tiger | Tiger | N/A | N/A | NASA |
Flyby | Not selected |
| Concept study of a flyby mission to study Enceladus's plumes in search for habitability.[116] | |||||||
| 20 | Titan Lake In-situ Sampling Propelled Explorer | Titan Lake In-situ Sampling Propelled Explorer | N/A | N/A |  CAB/SENER/ESA[117] |
Lander | Not selected |
| The mission proposed landing on Ligeia Mare to navigate the lake for 6–12 months. If approved by ESA, it would study the liquid hydrocarbon sea, perform scientific measurements, and explore the surrounding terrain and northern coast of Titan.[118][119][120] | |||||||
| 21 | Titan Mare Explorer | Titan Mare Explorer | 2016 | Atlas V 411 | NASA |
Lander | Not selected |
| The mission aimed to measure Titan's organic constituents, conduct the first nautical exploration of an extraterrestrial sea, analyze its composition, and potentially study its shoreline.[121] | |||||||
| 22 | Titan Saturn System Mission | Titan Saturn System Mission | Between 2020 and 2029 | Delta IV Heavy, Space Launch System[122] Block IB, or Atlas V | NASA |
Orbiter and lander | Not selected |
| Canceled due to funding constraints and prioritization of other planetary exploration goals.[123] The mission aimed to study Saturn's moons Titan and Enceladus, focusing on their atmospheres, surfaces, and potential signs of life. | |||||||
| 23 | Titan Submarine | Titan Submarine | 2030s-2040s | N/A | NASA |
Lander | Not selected |
| Proposed to detect the elemental and chemical properties of Titan's water, undersea rocks, and minerals, as well as identify undersea seismic activity. The submarine would also measure the depth and temperature of specific locations within Titan's lakes.[124] | |||||||
| 24 | Titan Winged Aerobot | Titan Winged Aerobot | N/A | N/A | NASA |
Orbiter | Not selected |
| Proposed aerobot designed to fly through Titan's atmosphere, analyzing its composition and measuring temperature variations.[125] | |||||||
| 25 | Unnamed mission | Unnamed spacecraft | N/A | N/A | CNSA |
Orbiter and lander | Proposed |
| Proposed to include an orbiter, a lander, and a deep-drilling robot.[126][127] | |||||||
Uranus
Voyager 2 is the only spacecraft to visit Uranus, conducting a single flyby during its grand tour of the outer planets.
| Mission | Spacecraft | Launch date | Carrier rocket | Operator | Mission Type | Outcome | |
|---|---|---|---|---|---|---|---|
| 1 | HORUS | Herschel Orbital Reconnaissance of the Uranian System | N/A | N/A | NASA |
Orbiter | Not selected |
| Proposed Uranus system reconnaissance mission.[128] | |||||||
| 2 | MUSE | MUSE | September 2026, November 2029 if delayed | Ariane 6 | ESA |
Orbiter | Not selected |
| Proposed to investigate Uranus's atmosphere, interior, moons, rings, and magnetosphere,[129][130] including deploying an atmospheric probe to study why Uranus emits minimal heat.[129] | |||||||
| 3 | OCEANUS | Origins and Composition of the Exoplanet Analog Uranus System | 2030 | Atlas V 511 or SLS | NASA |
Orbiter | Not selected |
| Proposed to investigate the structure of Uranus's magnetosphere and interior, enabling detailed studies not achievable with a flyby mission.[131] | |||||||
| 4 | ODINUS | Origins, Dynamics, and Interiors of the Neptunian and Uranian Systems | 2034 | N/A | ESA |
Orbiter | Not selected |
| Proposed to enhance the Uranus Orbiter and Probe mission by including twin orbiters, Freyr, named after the Norse mythological figure, being the proposed spacecraft mission to explore Uranus,[132][133] each dedicated to studying Neptune and Uranus.[134] | |||||||
| 5 | QUEST | Quest to Uranus to Explore Solar System Theories | 2032 | N/A | NASA/JPL |
Orbiter | Not selected |
| An orbiter based on Juno. Planned arrival in 2045. Features elliptical polar orbit with periapsis ≈1.1 Uranus radii.[135] | |||||||
| 6 | PERSEUS | Plasma Environment, Radiation, Structure, and Evolution of the Uranian System | 2031 | N/A | NASA |
Orbiter | Not selected |
| Planned arrival in mid-2043.[136] | |||||||
| 7 | Tianwen-4 | Tianwen-4 | September 2029[73] | Long March 5 | CNSA |
Orbiter | Planned |
| Proposed to orbit Jupiter and Callisto, then fly by Uranus in March 2045 to study solar wind evolution in interplanetary space and its interactions with planetary magnetospheres.[74] | |||||||
| 8 | UMaMI | Uranus Magnetosphere and Moons Investigator | N/A | N/A | NASA |
Orbiter | Not selected |
| New Frontiers-style mission concept to explore the Uranian system.[137] | |||||||
| 9 | Uranus Orbiter and Probe | Uranus Orbiter and Probe | Not earlier than 2031[138] | Falcon Heavy | NASA |
Orbiter | Proposed |
| Proposed to study Uranus and its moons, along with deploying an atmospheric probe to analyze Uranus's atmosphere.[138] | |||||||
| 10 | Uranus Pathfinder | Uranus Pathfinder | 2022,[139] in baseline concept January 2025 | N/A, in baseline concept an Atlas V 551 | ESA |
Orbiter | Not selected |
| Proposed under ESA's Cosmic Vision 2015–2025, it would have used gravity assists from Earth, Venus, and Saturn. At Uranus, it planned a 45-day polar orbit with close periapsis distances to study the planet's gravitational and magnetic fields.[139] | |||||||
Neptune
Voyager 2 is the only spacecraft to visit Neptune, conducting a single flyby during its grand tour of the outer planets.
| Mission | Spacecraft | Launch date | Carrier rocket | Operator | Mission Type | Outcome | |
|---|---|---|---|---|---|---|---|
| 1 | Arcanum | Arcanum | N/A | N/A | N/A | Orbiter/Lander | Not selected |
| Includes "Somerville" space telescope and Triton lander "Bingham"; technology demonstrator for new heavy-lift vehicles.[140] | |||||||
| 2 | Argo | Argo | c. 2020s | N/A | NASA |
Flyby | Not selected |
| Cancelled due to shortage of plutonium-238 required for the radioisotope thermoelectric generators (RTG).[37] Would have focused on Neptune and its largest moon, Triton, addressing questions raised by Voyager 2's 1989 flyby[141] and would have provided insights into the formation and evolution of ice giants.[142] | |||||||
| 3 | Nautilus | Nautilus | 2042 | N/A | NASA |
Orbiter | Not selected |
| A Triton-focused Neptune orbiter baselined for the New Frontiers program, with launch in August 2042 and orbital insertion slated for April 2057.[143] | |||||||
| 4 | Neptune Odyssey | Neptune Odyssey | 2033[144] | Space Launch System proposed, Falcon Heavy as the alternative[144] | NASA |
Orbiter | Not selected |
| Proposed to enter a retrograde orbit around Neptune for simultaneous study of Triton, the mission would also deploy an atmospheric probe to analyze Neptune's atmosphere.[145][146] | |||||||
| 5 | New Horizons 2 | New Horizons 2 | N/A | N/A | NASA |
Flyby | Not selected |
| Cancelled due to a shortage of plutonium-238 for the radioisotope thermoelectric generator. The probe was proposed to fly by Neptune and Triton, with 66652 Borasisi considered as a potential follow-up target.[147] | |||||||
| 6 | ODINUS | Origins, Dynamics, and Interiors of the Neptunian and Uranian Systems | 2034 | N/A | ESA |
Orbiter | Not selected |
| Proposed to enhance the Uranus Orbiter and Probe mission by including twin orbiters, Freyja, named after the Norse mythological figure, being the proposed spacecraft mission to explore Neptune,[132][133] each dedicated to studying Neptune and Uranus.[134] | |||||||
| 7 | OSS | Outer Solar System | N/A | N/A | ESA / NASA |
Multiple | Not selected |
| Mission to Neptune, Triton, and Kuiper Belt.[148] | |||||||
| 8 | Shensuo | IHP-2 | May 2024 | N/A | CNSA |
Flyby | Proposed |
| Proposed to use gravity assists from Earth, Jupiter, and Neptune, the mission aims to fly by Neptune in January 2038, passing just 1,000 kilometers above its cloud tops. The probe may also release an atmospheric impactor before the flyby.[149] | |||||||
| 9 | Tianwen-5 | Tianwen-5 | N/A | N/A | CNSA |
Orbiter | Proposed |
| Long-term concept with launch in the 2030s and potential arrival in 2058.[150] | |||||||
| 10 | TOWS | Triton Ocean Worlds Surveyor | 2031 | N/A | NASA |
Orbiter | Not selected |
| A downscaled version of Neptune Odyssey without the atmospheric probe. Planned arrival in 2047. Baselined for New Frontiers program.[151] | |||||||
| 11 | Triton Hopper | Triton Hopper | N/A | N/A | NASA |
Lander | Not selected |
| Proposed to harvest the nitrogen ice on the surface of Triton and use it as propellant for multiple short flights to explore a variety of locations on Triton.[152][153] | |||||||
| 12 | Trident | Trident | 25 October 2025 with a backup in October 2026[75] | N/A | NASA |
Flyby | Not selected |
| Proposed mission to study Triton's surface and cryovolcanism, using a Jupiter gravity assist and a flyby of Io in 2032 to accelerate toward Neptune.[76] | |||||||
Pluto and trans-Neptunian objects
One spacecraft has visited a dwarf planet and trans-Neptunian object: New Horizons, which performed flybys of Pluto and the Kuiper belt object 486958 Arrokoth.
| Mission | Spacecraft | Launch date | Carrier rocket | Operator | Mission Type | Outcome | |
|---|---|---|---|---|---|---|---|
| 1 | Fusion-Enabled Pluto Orbiter and Lander | Fusion-Enabled Pluto Orbiter and Lander | N/A | N/A | NASA |
Orbiter and lander | Not selected |
| A probe equipped with a Direct Fusion Drive (DFD) propulsion system, planned to orbit and land on Pluto.[154] | |||||||
| 2 | Mariner Mark II | Mariner | Late 1980s | N/A | NASA |
Multiple | Not selected |
| 2,000 kg spacecraft; cost ~$3.2 billion. | |||||||
| 3 | New Horizons 2 | New Horizons 2 | N/A | N/A | NASA |
Flyby | Not selected |
| A proposed probe that would have flew by trans-Neptunian objects using a gravity assist from Uranus.[147] | |||||||
| 4 | Persephone | Persephone | N/A | N/A | NASA |
Orbiter | Not selected |
| Proposed to orbit Pluto for three years, investigating the possibility of a subsurface ocean.[155] | |||||||
| 5 | Pluto Hop, Skip, and Jump | Pluto Hop, Skip, and Jump | N/A | N/A | NASA |
Lander | Not selected |
| Designed to land on Pluto and conduct surface operations, using Pluto's low gravity to hop between locations with small amounts of propellant.[156] | |||||||
| 6 | Pluto 350 | Pluto 350 | Early 1990s | N/A | NASA |
Flyby | Not selected |
| Minimalistic ~350 kg spacecraft concept. | |||||||
| 7 | Pluto Kuiper Express | Pluto Kuiper Express | December 2004 | Delta II or Space Shuttle | NASA |
Orbiter | Not selected |
| A proposed probe to fly by Pluto, with a planned 2004 launch, a Jupiter assist in 2006, and a Pluto arrival by 2012. Canceled in 2000, it inspired the New Horizons mission, which launched in 2006 and reached Pluto in 2015.[157][158] | |||||||
| 8 | Pluto Orbiter/Lander/Sample Return | Pluto Orbiter/Lander/Sample Return | 2003 | N/A | NASA |
Multiple | Not selected |
| 12-year mission with mapping, multiple landings and in situ propellant production.[159] | |||||||
| 9 | Shensuo | IHP-1 | May 2024 | N/A | CNSA |
Flyby | Proposed |
| A proposed probe in the Shensuo program (Chinese: 神梭), planned to launch alongside IHP-2 and the proposed IHP-3. IHP-1 will use gravity assists from Earth in October 2025 and December 2027, followed by a Jupiter flyby in March 2029, on its way to the heliosphere. During its journey to interstellar space, it is expected to encounter 50000 Quaoar and its moon Weywot in 2040.[69] | |||||||
