ARIEL
Ariel is a planned space telescope and the fourth medium-class mission of the European Space Agency's Cosmic Vision programme. The mission is aimed at observing at least 1,000 known exoplanets using the transit method, studying and characterising the planets' chemical composition and thermal structures. Compared to the James Webb Space Telescope, Ariel will be a much smaller telescope with more observing time available for planet characterisation. Ariel was expected to be launched in 2029 aboard an Arianespace Ariane 6 together with the Comet Interceptor into the Sun-Earth Lagrange point L2. However as of January 2026, it is likely to be delayed until 2031.
Background
The Ariel mission is being developed by a consortium of various institutions from eleven member states of the European Space Agency, and international contributors from four countries. The project is led by principal investigator Giovanna Tinetti of the University College London, who had previously led the unsuccessful Exoplanet Characterisation Observatory proposal for the M3 Cosmic Vision launch slot.; alongside RAL Space, STFC for the PLM engineering consortium leadership.Operations of the mission and the spacecraft will be handled jointly by ESA and the consortium behind the mission's development, through a coordinated Instrument Operations and Science Data Centre. A Mission Operations Centre will be set up at the European Space Operations Centre in Darmstadt, Germany, while a concurrent Ariel Science Operations Centre will be set up at the European Space Astronomy Centre near Madrid, Spain. The MOC will be responsible for the spacecraft itself, while the SOC will be responsible for archiving mission data and scientific data downlinked from the spacecraft. The IOSDC will help develop results from the mission based on data received by the SOC.
Objective
Ariel will observe 1,000 planets orbiting distant stars and make the first large-scale survey of the chemistry of exoplanet atmospheres. The objective is to answer fundamental questions about how planetary systems form and evolve. A spectrometer will spread the light into a spectrum and determine the chemical fingerprints of gases in the planets' atmospheres. This will enable scientists to understand how the chemistry of a planet links to the environment in which it forms, and how its formation and evolution are affected by its parent star. Ariel will study a diverse population of exoplanets in a wide variety of environments, but it will focus on warm and hot planets in orbits close to their star.Spacecraft
The design of the Ariel spacecraft is based on that intended for the Exoplanet Characterisation Observatory mission, and has heritage from the thermal design of the Planck space observatory. The body of the spacecraft is split into two distinct modules known as the Service Module and the Payload Module. The PLM will complete its Assembly, Integration and Test at RAL Space, STFC. The PLM consists of three aluminium V-Grooves and three pairs of low conductivity fibreglass bipod struts supporting the PLM. A basic horizontal telescope configuration is used for the PLM itself, housing all of the spacecraft's scientific instruments and its oval primary mirror. At launch, the spacecraft will have a fuelled mass of, and will have a dry mass of. The PLM will account for around of that mass.Telescope
The Ariel telescope's assembly is an off-axis Cassegrain telescope followed by a third parabolic mirror to recollimate the beam. The telescope uses an oval primary mirror; the imaging quality of the system is limited by diffraction for wavelengths longer than about 3 μm, and its focal ratio is 13.4. The system will acquire images in the visible and near-infrared spectrum. The near-infrared sensor and its front-end driver board is the same as that of Euclid's NISP instrument. To operate its infrared spectroscope between 1.95–7.8 μm, the telescope will be cooled to a temperature of.Ariel's 1.1-m-diameter primary mirror will be the largest telescope mirror ever constructed completely from aluminium. It will be built in a conventional way from a single large piece of metal. However, for future space telescopes, ESA is developing techniques for joining together multiple aluminium segments to form a single large mirror.
Timeline
Development
In August 2017, NASA conditionally selected Contribution to ARIEL Spectroscopy of Exoplanets as a Partner Mission of Opportunity, pending the result of ESA's Cosmic Vision selection. Under the proposal NASA provides two fine guidance sensors for the Ariel spacecraft in return for the participation of U.S. scientists in the mission. CASE was officially selected in November 2019, with JPL astrophysicist Mark Swain as principal investigator.In March 2018, ESA officially selected Ariel as its fourth medium-class science mission. At that time, its launch was planned for 2028. In November 2020, Ariel moved from study to implementation phase, with a launch scheduled for 2029. On 7 December 2021, ESA announced that the €200 million contract to build Ariel's SVM had been awarded to Airbus Defence and Space. In August 2023, Ariel passed its payload Preliminary Design Review. On 6 December 2023, ESA approved the construction of Ariel while maintaining a targeted launch date of 2029.