This is a list of known objects which occupy, have occupied, or are planned to occupy any of the five Lagrange points of two-body systems in space.

A diagram showing the five Lagrange points in a two-body system

Sun–Earth Lagrange points

Sun–Earth L 1

L1 is the Lagrange point located approximately 1.5 million kilometers from Earth towards the Sun.

Past probes

  • International Cometary Explorer, formerly the International Sun–Earth Explorer 3 (ISEE-3), diverted out of L1 in 1983 for a comet rendezvous mission. Currently in heliocentric orbit. The Sun–Earth L1 is also the point to which the Reboot ISEE-3 mission was attempting to return the craft as the first phase of a recovery mission (as of September 25, 2014 all efforts have failed and contact was lost).
  • NASA's Genesis probe collected solar wind samples at L1 from December 3, 2001, to April 1, 2004, when it returned the sample capsule to Earth. It returned briefly in late 2004 before being pushed into heliocentric orbit in early 2005.
  • LISA Pathfinder (LPF) was launched on 3 December 2015, and arrived at L1 on 22 January 2016, where, among other experiments, it tested the technology needed by (e)LISA to detect gravitational waves. LISA Pathfinder used an instrument consisting of two small gold alloy cubes.
  • The Chang'e 5 orbiter (during extended mission. After ferrying lunar samples back to Earth in 2020, the transport module was sent to L1 where it is permanently stationed to conduct limited Earth-Sun observations.)

Present probes

  • The Deep Space Climate Observatory (DSCOVR), designed to image the sunlit Earth in 10 wavelengths (EPIC) and monitor total reflected radiation (NISTAR). Launched on 11 February 2015, began orbiting L1 on 8 June 2015 to study the solar wind and its effects on Earth. DSCOVR is unofficially known as GORESAT, because it carries a camera always oriented to Earth and capturing full-frame photos of the planet similar to the Blue Marble. This concept was proposed by then-Vice President of the United States Al Gore in 1998 and was a centerpiece in his 2006 film An Inconvenient Truth.
  • Aditya-L1 was successfully launched on 2 September 2023 and entered the halo orbit around the lagrange point on 6 January 2024. It is a Solar observation mission by ISRO. It will study solar atmosphere, solar magnetic storms, and their impact on the environment around the Earth.
  • IMAP, launched in September 2025
  • SWFO-L1, launched in September 2025
  • Carruthers Geocorona Observatory, launched in September 2025

Planned probes

Sun–Earth L 2

L2 is the Lagrange point located approximately 1.5 million kilometers from Earth in the direction opposite the Sun. Spacecraft at the Sun–Earth L2 point are in a Lissajous orbit until decommissioned, when they are sent into a heliocentric graveyard orbit.[citation needed]

Past probes

Animation of Wilkinson Microwave Anisotropy Probe's trajectory from 1 July 2001 to 7 April 2009 WMAP · Earth
  • 2001 – 2010: NASA's Wilkinson Microwave Anisotropy Probe (WMAP) observed the cosmic microwave background. It was moved to a heliocentric orbit to avoid posing a hazard to future missions.
  • 2003 – 2004: NASA's WIND. The spacecraft then went to Earth orbit, before heading to the L1 point, where it remains in service.
  • 2009 – 2013: The ESA Herschel Space Observatory exhausted its supply of liquid helium and was moved from the Lagrangian point in June 2013.
  • 2009 – 2013: At the end of its mission ESA's Planck spacecraft was put into a heliocentric orbit and passivated to prevent it from endangering any future missions.
  • 2011 – 2012: CNSA's Chang'e 2. Chang'e 2 was then placed onto a heliocentric orbit that took it past the near-Earth asteroid 4179 Toutatis.
  • The CNSA Chang'e 6 orbiter
  • 2013 – 2025: The ESA Gaia mission’s thrusters moved the spacecraft away from L2 on 27 March 2025 and into a stable retirement orbit around the Sun that will minimise the chance that it comes within 10 million km Earth for at least the next century.

Present probes

Gaia and James Webb Space Telescope orbit around Sun-Earth L2

Planned probes

Cancelled probes

Sun–Earth L 3

L3 is the Sun–Earth Lagrange point located on the side of the Sun opposite Earth, slightly outside the Earth's orbit. Direct communication with spacecraft in this position is blocked by the Sun.

  • There are no known objects in this orbital location. [citation needed]

Sun–Earth L 4

L4 is the Sun–Earth Lagrange point located close to the Earth's orbit 60° ahead of Earth.

  • Asteroid (706765) 2010 TK7 is the first discovered tadpole orbit companion to Earth, orbiting L4; like Earth, its mean distance to the Sun is about one astronomical unit.
  • Asteroid (614689) 2020 XL5 is the second Earth trojan, confirmed in November 2021, oscillating around L4 in a tadpole orbit and expected to remain there for at least 4000 years, until destabilized by Venus.
  • STEREO A (Solar TErrestrial RElations Observatory – Ahead) made its closest pass to L4 in September 2009, on its orbit around the Sun, slightly faster than Earth.
  • OSIRIS-REx passed near the L4 point and performed a survey for asteroids between 9 and 20 February 2017.

Sun–Earth L 5

L5, or Earth-trailing orbit, is the Sun–Earth Lagrange point located close to the Earth's orbit 60° behind Earth.

  • Asteroid (419624) 2010 SO16, in a horseshoe companion orbit with Earth, is currently proximal to L5 but at a high inclination.
  • STEREO B (Solar TErrestrial RElations Observatory – Behind) made its closest pass to L5 in October 2009, on its orbit around the Sun, slightly slower than Earth.
  • The Spitzer Space Telescope is in an Earth-trailing heliocentric orbit drifting away c. 0.1 AU per year. In c. 2013–15 it has passed L5 in its orbit.
  • Hayabusa2 passed near L5 during the spring of 2017, and imaged the surrounding area to search for Earth trojans on 18 April 2018.

Planned

Earth–Moon Lagrange points

Earth–Moon L2

Earth–Moon L4 and L5

  • Kordylewski clouds
  • Future location of TDRS-style communication satellites to support L2 satellite and further regions on the Moon.

Past probes

  • Hiten was the first spacecraft to demonstrate a low energy trajectory, passing by L4 and L5 to achieve lunar orbit at a very low fuel expense, compared to usual orbital techniques. Hiten did not find any conclusive increase in dust density at Lagrange points.

Proposed objects

Sun–Venus Lagrange points

L4

Sun–Mars Lagrange points

Sun–Mars L1

Proposed objects

  • In a 2017 NASA workshop, former NASA Chief Scientist Jim Green proposed the placement of a magnetic dipole located at the Mars Lagrange orbit L1 at about 320 R♂, creating a partial and distant artificial magnetosphere. If constructed, the shield may allow the planet to partially restore its atmosphere and potentially enabling the terraforming of Mars.

Sun–Mars L4 and L5

Asteroids in the L4 and L5 Sun–Mars Lagrangian points are sometimes called Mars trojans, with a lower-case t, as "Trojan asteroid" was originally defined as a term for Lagrangian asteroids of Jupiter. They may also be called Mars Lagrangian asteroids.

L4

L5

Source: Minor Planet Center

Sun–Ceres Lagrange points

Sun–Jupiter Lagrange points

Asteroids in the L4 and L5 Sun–Jupiter Lagrangian points are known as Jupiter Trojan asteroids or simply Trojan asteroids.

L4

L5

L4 and L5

Saturn–Tethys Lagrange points

L4

L5

Saturn–Dione Lagrange points

L4

L5

Sun–Uranus Lagrange points

L3

L4

Sun–Neptune Lagrange points

Minor planets in the L4 and L5 Sun–Neptune Lagrangian points are called Neptune trojans, with a lower-case t, as "Trojan asteroid" was originally defined as a term for Lagrangian asteroids of Jupiter.

Data from: Minor Planet Center

L4

L5

Tables of missions

Color key: Unflown or planned mission Mission en route or in progress (including mission extensions) Mission at Lagrangian point completed successfully (or partially successfully)

Lagrangian point missions
MissionLagrangian pointAgencyDescription
International Sun–Earth Explorer 3 (ISEE-3)Sun–Earth L1NASALaunched in 1978, it was the first spacecraft to be put into orbit around a libration point, where it operated for four years in a halo orbit about the L1 Sun–Earth point. After the original mission ended, it was commanded to leave L1 in September 1982 in order to investigate comets and the Sun. Now in a heliocentric orbit, an unsuccessful attempt to return to halo orbit was made in 2014 when it made a flyby of the Earth–Moon system.
Advanced Composition Explorer (ACE)Sun–Earth L1NASALaunched 1997. Has fuel to orbit near L1 until 2024. Operational as of 2019[update].
Deep Space Climate Observatory (DSCOVR)Sun–Earth L1NASALaunched on 11 February 2015. Planned successor of the Advanced Composition Explorer (ACE) satellite.
LISA Pathfinder (LPF)Sun–Earth L1ESA, NASALaunched one day behind revised schedule (planned for the 100th anniversary of the publication of Einstein's General Theory of Relativity), on 3 December 2015. Arrived at L1 on 22 January 2016. LISA Pathfinder was deactivated on 30 June 2017.
Solar and Heliospheric Observatory (SOHO)Sun–Earth L1ESA, NASAOrbiting near L1 since 1996. Operational as of 2020[update].
WINDSun–Earth L1NASAArrived at L1 in 2004 with fuel for 60 years. Operational as of 2019[update].
Wilkinson Microwave Anisotropy Probe (WMAP)Sun–Earth L2NASAArrived at L2 in 2001. Mission ended 2010, then sent to solar orbit outside L2.
Herschel Space TelescopeSun–Earth L2ESAArrived at L2 July 2009. Ceased operation on 29 April 2013; will be moved to a heliocentric orbit.
Planck Space ObservatorySun–Earth L2ESAArrived at L2 July 2009. Mission ended on 23 October 2013; Planck has been moved to a heliocentric parking orbit.
Chang'e 2Sun–Earth L2CNSAArrived in August 2011 after completing a lunar mission before departing en route to asteroid 4179 Toutatis in April 2012.
ARTEMIS mission extension of THEMISEarth–Moon L1 and L2NASAMission consists of two spacecraft, which were the first spacecraft to reach Earth–Moon Lagrangian points. Both moved through Earth–Moon Lagrangian points, and are now in lunar orbit.
WINDSun–Earth L2NASAArrived at L2 in November 2003 and departed April 2004.
Gaia Space ObservatorySun–Earth L2ESALaunched 19 December 2013. Operational as of 2020[update].
Chang'e 5-T1 Service ModuleEarth–Moon L2CNSALaunched on 23 October 2014, arrived at L2 halo orbit on 13 January 2015.
QueqiaoEarth–Moon L2CNSALaunched on 21 May 2018, arrived at L2 halo orbit on June 14 for Chang'e 4 mission. Queqiao is the first ever communication relay and radio astronomy satellite at operating its location.
Spektr-RGSun–Earth L2IKI RAN DLRLaunched 13 July 2019. Roentgen and Gamma space observatory. Operational as of June 2020.
Chang'e 5 Service ModuleSun–Earth L1CNSALaunched on 23 November 2020, arrived at L1 halo orbit on 15 March 2021.
James Webb Space Telescope (JWST)Sun–Earth L2NASA, ESA, CSALaunched on 25 December 2021, arrived at L2 point on 24 January 2022. Operational as of 2022.
EuclidSun–Earth L2ESA, NASALaunched on 1 July 2023, arrived at L2 point on 28 July 2023. Currently in testing phase as of September 2023.
Aditya-L1Sun–Earth L1ISROLaunched on 2 September 2023 and was successfully inserted into an orbit about Sun-Earth L1 point on 6 January 2024.
Chang'e 6 Service ModuleSun–Earth L2CNSALaunched on 3 May 2024, arrived at L2 halo orbit on 9 September 2024.
Interstellar Mapping and Acceleration Probe (IMAP)Sun–Earth L1NASALaunched on 24 September 2025.
Space Weather Follow On - Lagrange 1 (SWFO-L1)Sun–Earth L1NOAALaunched on 24 September 2025 as a rideshare to IMAP.
Carruthers Geocorona ObservatorySun–Earth L1NASALaunched on 24 September 2025 as a rideshare to IMAP.

Future and proposed missions

Future and proposed missions to Lagrangian points
MissionLagrangian pointAgencyDescription
"Lunar Far-Side Communication Satellites"Earth–Moon L2NASAProposed in 1968 for communications on the far side of the Moon during the Apollo program, mainly to enable an Apollo landing on the far side—neither the satellites nor the landing were ever realized.
Space colonization and manufacturingEarth–Moon L4 or L5First proposed in 1974 by Gerard K. O'Neill and subsequently advocated by the L5 Society.
DESTINY+Earth–Moon L2JAXAJAXA "Medium-Sized Focused Mission"; launch planned for 2025.
Exploration Gateway PlatformEarth–Moon L2NASAProposed in 2011.
Nancy Grace Roman Space Telescope (WFIRST)Sun–Earth L2NASA, USDOELaunch planned for 2026.
LiteBIRDSun–Earth L2JAXA, NASAJAXA's next "Strategic Large Mission"; launch planned for 2032.
Planetary Transits and Oscillations of stars (PLATO)Sun–Earth L2ESAPlanned for launch in 2026 for an initial six-year mission.
Space Infrared Telescope for Cosmology and Astrophysics (SPICA)Sun–Earth L2JAXA, ESA, SRONAs of 2015[update], awaiting approval from both Japanese and European side, launch proposed for 2032.
Advanced Telescope for High Energy Astrophysics (ATHENA)Sun–Earth L2ESALaunch planned for 2035.
ESA VigilSun–Earth L5ESAObservatory for early warning of increased solar activity. Launch planned for 2029.
Sun ChaserSun–Earth L4Observatory for early warning of solar particle events. Early proposal phase.
Spektr-MSun–Earth L2RoscosmosPossible launch after 2030.

See also

Footnotes