February 10, 2021
This wide-field view of the sky around
the bright star system Alpha Centauri
was created from photographic images
forming part of the Digitized Sky Survey 2.
ESO/Digitized Sky Survey 2
Acknowledgement: Davide De Martin)
Alpha Centauri 'A'
may have its own
In 2016, scientists discovered a roughly Earth-size world circling Proxima Centauri, part of the three-star Alpha Centauri system, which lies about 4.37 light-years from Earth.
(A second planet, Proxima c, was later discovered circling the star as well, but it orbits farther away, beyond the habitable zone's outer limits.)
There's considerable debate about the true habitability of Proxima b, however, given that its parent star is a red dwarf.
These stars, the most common in the Milky Way, are small and dim, so their habitable zones lie very close in - so close, in fact, that planets residing there tend to be tidally locked, always showing the same face to their host stars, just as the moon always shows Earth its near side.
In addition, red dwarfs are prolific flarers, especially when they're young, so it's unclear if their habitable-zone worlds can hold onto their atmospheres for long.
The other two stars in the Alpha Centauri trio, however, are sunlike - a pair called Alpha Centauri A and B, which together make up a binary orbiting the same center of mass.
And Alpha Centauri A may have its own habitable-zone planet, according to the new research (Imaging low-mass planets within the habitable zone of Alfa Centauri), which was published online today (Feb. 10) in the journal Nature Communications.
The study presents results from Near Earths in the Alpha Centauri Region (NEAR), a $3 million project led by the European Southern Observatory (ESO) and Breakthrough Watch, a program that hunts for potentially Earth-like worlds around nearby stars.
NEAR has been searching for planets in the habitable zones of Alpha Centauri A and B using ESO's Very Large Telescope (VLT) in Chile.
The NEAR team upgraded the VLT with several new technologies, including a thermal coronagraph, an instrument designed to block a star's light and allow the heat signatures of orbiting planets to be spotted.
After analyzing 100 hours of data gathered by NEAR in May and June of 2019, the scientists detected a thermal fingerprint in the habitable zone of Alpha Centauri A.
The signal potentially corresponds to a roughly Neptune-size world orbiting between 1 and 2 astronomical units (AU) from the star, study team members said.
(One AU, the average Earth-sun distance, is about 93 million miles, or 150 million kilometers.)
But that planet has not yet been confirmed, so it remains a candidate for now.
Study co-author Pete Klupar said he hopes the new results will inspire astronomers to study the Alpha Centauri system in greater detail, both via new observing programs and closer scrutiny of archived data, which may hold as-yet unrecognized evidence of the exoplanet candidate.
And, if the Alpha Centauri A world does indeed exist, it may not be alone.
Even if the Alpha Centauri A planet turns out to be a mirage, however, NEAR's work will not have been in vain, team members said.