Fluctuations for Planets Around Binaries

Planets orbiting a binary pair of stars continue to be discovered by astronomers. Earth-like planets that could host liquid water, and perhaps life, may be just as likely to occur in a binary system as a single star system.

The two stars in the binary pair orbit around each other, while the planet orbits them both. This leads to a situation where the amount of radiation from each star changes by a small amount as the planet moves, causing an increase and then decrease in the starlight received with time. If this effect is too extreme, then it could potentially prevent such planets from maintaining liquid water on their surfaces.

My co-authors and I address this problem in a paper entitled “Constraining the magnitude of climate extremes from time-varying instellation on a circumbinary planet” and published in Journal of Geophysical Research – Planets. We use a simple climate model to calculate the maximum temperature that could be expected for the most extreme, but physically possible, case of a planet orbiting a binary pair. Even in the most extreme cases, we find that such a planet would be able to support liquid water in at least some parts of its surface.

Rather than sterilize the planet, the temperature variation from a binary pair acts more like a driver of seasons. Planets orbiting a binary pair may therefore experience unique seasons and weather patterns, but these would not be strong enough to make life impossible.

Habitable Zones for Binary Star Systems

Although our sun is the only star in our Solar System, about half of stars are in binary systems, with two central stars orbiting their center of mass. Astronomers have recently started to detect planets in binary systems, which suggests that binary systems could conceivably host planets with just as much diversity as single star systems. Could planets orbiting binary stars be good places to search for signs of life?

My co-authors and I explore this question in a paper entitled “Habitable zone boundaries for circumbinary planets” and published in Publications of the Astronomical Society of the Pacific. We calculate the liquid water habitable zone for a planet orbiting a binary pair, which depends upon the particular combination of stars in the system. Dimmer red dwarf stars emit more infrared radiation than brighter yellow dwarf stars like our sun, for example; varying this combination of star types in the system can have a noticeable effect on the planet’s climate. But in general, planets orbiting a binary pair of stars should be about as likely to have habitable conditions as a similar planet orbiting a single star.