Venus: Key to understanding the evolution of terrestrial planets
Colin Frank Wilson, Thomas Widemann (the Envision, EVE, VL2SP, teams)

TL;DR
Venus is a crucial target for understanding terrestrial planet evolution, planetary science, and exoplanet analysis, requiring technological advancements and mission planning to explore its geophysical and atmospheric properties.
Contribution
This paper advocates for including Venus in future exploration plans, highlighting its scientific importance and proposing specific mission concepts and technological developments.
Findings
Venus offers unique insights into terrestrial planet evolution.
Technologies like high-temperature systems and balloons are vital for Venus missions.
Proposed missions include orbiters and in situ elements like balloons.
Abstract
As we become aware of Earth's changing climate, and as we discover terrestrial planets in other solar systems, we gain ever more reasons to study the Earth's nearest neighbour and closest sibling, the only Earth-sized planet besides our own that can be reached by our spacecraft. For the scientific and programmatic reasons outlined in this document, Venus is a compelling target for exploration. The science themes important for Venus research - comparative planetology and planetary evolution - are common to all of planetary and exoplanetary science. Many of the payloads required - radar and atmospheric remote sensing, in situ mass spectrometers - are common to mission proposals for many other solar system targets, as are mission technologies like high rate deep-space telecommunications technologies. Venus-specific technology developments meriting special attention include high-temperature…
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