ESA selects three new mission concepts for study

May 8, 2018, European Space Agency
Artist's impression of a gamma-ray burst. Credit: European Space Agency

A high-energy survey of the early Universe, an infrared observatory to study the formation of stars, planets and galaxies, and a Venus orbiter are to be considered for ESA's fifth medium class mission in its Cosmic Vision science programme, with a planned launch date in 2032.

The three candidates, the Transient High Energy Sky and Early Universe Surveyor (Theseus), the SPace Infrared telescope for Cosmology and Astrophysics (Spica), and the EnVision mission to Venus were selected from 25 proposals put forward by the scientific community.

Theseus, Spica and EnVision will be studied in parallel and a final decision is expected in 2021.

"I am impressed about the quality and breadth of the missions proposed for M5. Each of the selected proposals has high scientific value, and would ensure a continuation of Europe's expertise in the fields of planetary science, astrophysics and cosmology," says Günther Hasinger, ESA Director of Science.

How did the Universe begin and what is it made of?

Theseus is a novel mission to monitor transient events in the high-energy Universe across the whole sky and over the entirety of cosmic history. In particular, it promises to make a complete census of from the Universe's first billion years, to help shed light on the life cycle of the first stars.

Herschel’s view of new stars and molecular clouds. Credit: ESA/Herschel/NASA/JPL-Caltech; acknowledgement: R. Hurt (JPL-Caltech)

Gamma-ray bursts can be released during a supernova, or as a dying star collapses after such an explosion to form a neutron star or black hole, for example. Theseus would provide real-time triggers and accurate locations of such high-energy events, which could also be followed up by other space- or ground-based facilities operating at complementary wavelengths.

In addition, Theseus would also be able to follow up on gravitational wave observations by locating and identifying radiation from sources spotted by other detectors.

How did the first stars and galaxies form?

Understanding the origin and evolution of galaxies, , planets and life itself is a fundamental objective of astronomy. These topics can be explored with a sensitive infrared survey, peering through the clouds of dust that typically obscure the sites of star birth.

Spica, a joint European-Japanese project that offers significant improvement in far-infrared spectroscopic and survey capabilities over NASA's Spitzer and ESA's Herschel space observatories, would ensure continuing advances can be made in this field.

It would also complement the capabilities of existing and foreseen major observatories, such as the ground-based Atacama Large Millimetre/submillmetre Array and the space-based Webb telescope.

A comparison of terrestrial planets. Credit: European Space Agency
Why did Earth and Venus evolve so differently?

Venus is often considered as Earth's evil twin. Despite being roughly the same size and neighbours in the inner Solar System, the two planets have evolved very differently: Venus has experienced a catastrophic runaway greenhouse effect and today is enshrouded with a thick toxic atmosphere.

EnVision follows on from ESA's highly successful Venus Express that focused primarily on atmospheric research. Planned to be implemented with NASA participation, next-generation EnVision would determine the nature and current state of geological activity on Venus and its relationship with the atmosphere, to better understand the different evolutionary pathways of the two planets.

It would map the surface and obtain detailed radar images, improving on those obtained by NASA's Magellan in the 1990s to provide greater insight into the geological evolution of the surface.

The next years will provide a detailed technical and scientific definition of the three concepts, before one mission is selected to fill the fifth medium-class opportunity in ESA's Cosmic Vision plan.

Explore further: ESA's next science mission to focus on nature of exoplanets

Related Stories

NASA selects proposals to study galaxies, stars, planets

August 10, 2017

NASA has selected six astrophysics Explorers Program proposals for concept studies. The proposed missions would study gamma-ray and X-ray emissions from clusters of galaxies and neutron star systems, as well as infrared ...

ESA chooses 3 scientific missions for further study

February 19, 2010

Dark energy, habitable planets around other stars, and the mysterious nature of our own Sun, have been chosen by ESA as candidates for two medium-class missions to be launched no earlier than 2017.

You, too, can be an astrophysicist with your new telescope

January 5, 2018

A telescope can reveal the beauty of the universe, such as the Moon's craters, Saturn's rings, and the glowing gas of the Orion nebula. But a telescope isn't just for sightseeing – it is also a scientific instrument.

Recommended for you

Sculpting stable structures in pure liquids

February 21, 2019

Oscillating flow and light pulses can be used to create reconfigurable architecture in liquid crystals. Materials scientists can carefully engineer concerted microfluidic flows and localized optothermal fields to achieve ...

Researchers make coldest quantum gas of molecules

February 21, 2019

JILA researchers have made a long-lived, record-cold gas of molecules that follow the wave patterns of quantum mechanics instead of the strictly particle nature of ordinary classical physics. The creation of this gas boosts ...


Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.