Three decades after Cornell astronomer Carl Sagan suggested that Voyager 1 snap Earthโ€™s picture from billions of miles away — resulting in the iconic Pale Blue Dot photograph — two astronomers now offer another unique cosmic perspective: Some exoplanets — planets from beyond our own solar system — have a direct line of sight to observe Earthโ€™s biological qualities from far, far away.

Lisa Kaltenegger, associate professor of astronomy at Cornell University and director of Cornellโ€™s Carl Sagan Institute; and Joshua Pepper, associate professor of physics at Lehigh University, have identified 1,004 main-sequence stars (similar to our Sun) that might contain Earth-like planets in their own habitable zones — all within about 300 light-years of Earth — and which should be able to detect Earthโ€™s chemical traces of life.

The paper, โ€œWhich Stars Can See Earth as a Transiting Exoplanet?โ€ was published in Monthly Notices of the Royal Astronomical Society.

โ€œLetโ€™s reverse the viewpoint to that of other stars and ask from which vantage point other observers could find Earth as a transiting planet,โ€ Kaltenegger said. A transiting planet is one that passes through the observerโ€™s line of sight to another star, such as the Sun, revealing clues as to the makeup of the planetโ€™s atmosphere.

โ€œIf observers were out there searching, they would be able to see signs of a biosphere in the atmosphere of our Pale Blue Dot,โ€ she said, โ€œAnd we can even see some of the brightest of these stars in our night sky without binoculars or telescopes.โ€

Transit observations are a crucial tool for Earthโ€™s astronomers to characterize inhabited extrasolar planets, Kaltenegger said, which astronomers will start to use with the launch of NASAโ€™s James Webb Space telescope next year.

But which stars systems could find us? Holding the key to this science is Earthโ€™s ecliptic — the plane of Earthโ€™s orbit around the Sun. The ecliptic is where the exoplanets with a view of Earth would be located, as they will be the places able to see Earth crossing its own Sun — effectively providing observers a way to discover our planetโ€™s vibrant biosphere.

Pepper and Kaltenegger created the list of the thousand closest stars using NASAโ€™s Transiting Exoplanet Survey Satellite (TESS) star catalog.

โ€œOnly a very small fraction of exoplanets will just happen to be randomly aligned with our line of sight so we can see them transit.โ€ Pepper said. โ€œBut all of the thousand stars we identified in our paper in the solar neighborhood could see our Earth transit the Sun, calling their attention.โ€

โ€œIf we found a planet with a vibrant biosphere, we would get curious about whether or not someone is there looking at us too,โ€ Kaltenegger said.

โ€œIf weโ€™re looking for intelligent life in the universe, that could find us and might want to get in touchโ€ she said, โ€œweโ€™ve just created the star map of where we should look first.โ€

Contact:
Jeff Tyson
+1 607-255-7701, cell: +1 607-793-5769
jeff.tyson@cornell.edu

Reference:
โ€œWhich Stars Can See Earth as a Transiting Exoplanet?โ€ Lisa Kaltenegger & Joshua Pepper, 2020, to appear in Monthly Notices of the Royal Astronomical Society [https://academic.oup.com/mnras, preprint:ย https://arxiv.org/abs/2010.09766]. This work was funded by the Carl Sagan Institute and the Breakthrough Initiative.

Video:
https://youtu.be/fJxDMD6SfMI
https://cornell.box.com/v/exoplanetsviewofEarth
Lisa Kaltenegger explaining the intrigue of seeking out exoplanets with a line of sight to Earth.