Comet Interceptor

Comet Interceptor

Mission type	Comet flyby
Operator	ESA / JAXA
Website	www.cometinterceptor.space/mission.html
Mission duration	≈ 5 years
Spacecraft properties
Spacecraft	Comet Interceptor
Launch mass	Approx. 850 kg (1,870 lb).[1]
Start of mission
Launch date	2029 (planned)[2]
Rocket	Ariane 62
Launch site	Kourou ELA-4
Contractor	Arianespace
Flyby of a long-period comet yet to be selected
Cosmic Vision ← ARIEL ATHENA →

The Comet Interceptor is a robotic spacecraft mission led by the European Space Agency (ESA) planned for launch in 2029.^[2] The spacecraft will be "parked" at the Sun-Earth L₂ point and wait for up to three years for a long-period comet to fly by at a reachable trajectory and speed.

The Principal Investigator is Geraint Jones, from the Mullard Space Science Laboratory in the United Kingdom. The maximum cost of the spacecraft bus is set at €150M, excluding science instruments and launch services.^[1]

Overview

Long-period comets have highly eccentric orbits and periods ranging from 200 years to millions of years,^[3] so they are usually discovered only months before they pass through the inner Solar System and return to the distant reaches of the outer Solar System, which is too little time to plan and launch a mission. Therefore, ESA will "park" the Comet Interceptor spacecraft on a stable halo orbit around the Sun-Earth L₂ point and wait for the discovery of a suitable comet that it can reach for a close flyby.^[4]

The Comet Interceptor mission is unique in that it is designed to encounter an as-yet unknown target, having to wait between 2 and 3 years for a target it can reach with a reasonable change in velocity (delta-v) within a total mission length of approximately 5 years.^[4][5] The baseline design is solar electric propulsion.^[4]

Finding a suitable comet to fly by will rely on ground-based observational surveys such as Pan-STARRS, ATLAS, or the future Vera C. Rubin Observatory's Legacy Survey of Space and Time (LSST).^[1] In the case that no long-period comet can be intercepted in time, a backup short period comet (baseline: 73P/Schwassmann–Wachmann) can be studied.^[4] There is also the potential of intercepting an interstellar object passing through the Solar System, if the velocity and direction permit.^[4][6][7]

The mission's primary science goal is stated as "to characterise, a dynamically-new comet, including its surface composition, shape, structure, and the composition of its gas coma."^[8]

Comet Interceptor is being developed as ESA's first Fast class (F-class) of the Cosmic Vision programme. The mission is being planned and developed by a consortium that includes the ESA and Japan's space agency JAXA. Comet Interceptor will share the launch vehicle with ESA's ARIEL space telescope, which is also bound for Lagrange point 2.^[2]

Secondary spacecraft

A few weeks before the comet flyby, the main spacecraft (spacecraft A) will deploy two small probes (B1 and B2) to venture even closer to the target, carrying complementary instrument payloads and to sample the coma.^[9] Each of the three spacecraft will sample gas composition, dust flux, density, magnetic fields, and plasma and solar wind interactions, to build up a 3D profile of the region around the comet.^[10]

See also

• ARIEL – Launching on the same rocket

References

• v
• t
• e

Spacecraft missions to minor planets and comets

• List of minor planets and comets visited by spacecraft
• List of artificial objects on extraterrestrial surfaces

Active

• New Horizons (multiple flybys)
• OSIRIS-APEX (orbiter)
• Hayabusa2♯ (lander)
• Lucy (multiple flybys)
• LICIACube (flyby)
• Jupiter Icy Moons Explorer (flyby)
• Psyche (orbiter)

Past

Flybys	Cassini–Huygens Chang'e 2 Clementine† CONTOUR† Deep Impact EPOXI Deep Space 1 Galileo Halley Armada Giotto Sakigake Suisei Vega 1 Vega 2 International Cometary Explorer NEA Scout† NEAR Shoemaker Pioneer 7 PROCYON† Rosetta Stardust Ulysses
Orbiters	Dawn NEAR Shoemaker Rosetta Timeline
Landers	Hayabusa MINERVA† Hayabusa2 MASCOT Rover-1A / HIBOU Rover-1B / OWL Rover-2† NEAR Shoemaker Philae
Impactors	Deep Impact DART
Sample return	Hayabusa Hayabusa2 Stardust OSIRIS-REx

Planned

• Hera (orbiter, 2024)
  • AIDA
• DESTINY+ (multiple flybys, 2025)
• Tianwen-2 (multiple flybys and sample return, 2025)
• MBR Explorer (multiple flybys and orbiter, 2028)
• Comet Interceptor (flyby, 2029)

Proposed

• ASTER (orbiter, 2021)
• Athena (flyby of Pallas, 2022)
• Shensuo (flybys, 2024)
• Centaurus (multiple flybys, 2026–2029)
• Chimera (orbiter, 2025)
• CORSAIR (sample return)
• HAMMER (nuclear impactor concept)
• MANTIS (multiple flybys)
• OKEANOS (multiple flybys and sample return, 2026)
• World Is Not Enough (spacecraft refueling concept)
• Interstellar Probe (flyby, 2030–2042)

Cancelled or
not developed

• AGORA
• AIM
• Asteroid Redirect Mission
• CAESAR
• Castalia
• Clementine 2
• Comet Hopper
• CONDOR
• CRAF
• Don Quijote
• Hayabusa Mk2
• Janus
• MAOSEP
• Marco Polo
• New Horizons 2
• Vesta

Related

• Asteroid belt
• Asteroid capture
• Asteroid mining
• Colonization of asteroids
• Ceres
• Pluto
  • Exploration
• Small Solar System bodies
  • Near-Earth object
  • Trans-Neptunian object
    • Colonization
  • Trojan
• Vesta

• Probes are listed in chronological order of launch. ^† indicates mission failures.