Habitability of neutron star systems

An artist's vision of the planets around the neutron star Lich.

This article is one of a series on:
Life in the universe
Outline
Planetary habitability in the Solar System
Venus Earth Mars Europa Enceladus Titan
Life outside the Solar System
Potentially habitable exoplanets Galactic habitable zone Habitability of binary star systems Habitability of natural satellites Habitability of neutron star systems Habitability of K-type main-sequence star systems Habitability of red dwarf systems Habitability of yellow dwarf systems Habitable exoplanet
v t e

The habitability of neutron star systems means assessing and surveying whether life is possible on planets and moons orbiting a neutron star.

A habitable planet orbiting a neutron star must be between one and 10 times the mass of the Earth. If the planet were lighter, its atmosphere would be lost. Its atmosphere must also be thick enough to convert the intense X-ray radiation emanating from the parent star into heat on its surface. Then it could have the temperature suitable for life.

A magnetic field strong enough — the magnetosphere — would protect the planet from the strong solar winds. This could preserve the planet's atmosphere for several billion years. Such a planet could have liquid water on its surface.

A Dutch research team published an article on the subject in the journal Astronomy & Astrophysics in December 2017.

See also

• Habitability of red dwarf systems
• Habitability of K-type main-sequence star systems
• Habitability of natural satellites
• Dragon's Egg and its sequel Starquake, novels by Robert L. Forward, about life on a neutron star itself.