Abstract
Studying the amazingly diverse planet zoo provides us with unprecedented
opportunities for understanding planet Earth and ultimately ourselves.
An assessment of a planet's ``habitability'' reflects our Earth-centric
prejudice and can serve to prioritise targets to actually search for
signatures of life similar to ours. The probability for life beyond
Earth to exist however remains unknown, and studies on habitability or
statistics of planetary systems do not change this. But we can leave
speculation behind, and embark on a journey of exploration. A sample of
detected cosmic habitats would provide us with insight on the conditions
for life to emerge, develop, and sustain, but disentangling the biota
fraction from the duration of the biotic era would depend particularly
on our knowledge about the dynamics of planetary systems. Apart from the
fact that planets usually do not come alone, we also must not forget
that the minor bodies in the Solar system vastly outnumber the planets.
A focus on just what we might consider ``habitable'' planets is too
narrow to understand their formation and evolution. While uniqueness
prevents understanding, we need to investigate the context and embrace
diversity. A comprehensive picture of planet populations can only arise
by exploiting a variety of different detection techniques, where not
only Kepler but also gravitational microlensing can now enter hitherto
uncharted territory below the mass or size of the Earth. There is
actually no shortage of planets, the Milky Way alone may host hundreds
of billions, and so far we have found only about 1000.
Original language | English |
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Pages (from-to) | 77-83 |
Journal | Proceedings of the International Astronomical Union |
Volume | 8 |
Issue number | S293 |
DOIs | |
Publication status | Published - Aug 2012 |
Keywords
- Planetary systems
- Astrobiology
- Gravitational lensing: micro
- Techniques: high angular resolution