This weekend, astronomers announced the discovery of the most Earth-like planet anyone has identified yet. The search of habitable planets is intensifying—and with it, questions about whether we're looking for the exoplanets the right way. For starters, figuring out how Earth would look to aliens is actually pretty useful.
The search for exoplanets is an incredibly complicated endeavor. In theory, planets with life-sustaining habitats are out there, orbiting around stars other than the Sun. But finding them is another matter entirely. Among other issues, these planets would be outshone by their respective suns, which is why NASA is dreaming up incredible spacecraft like the PlanetQuest, which shields its sensors from the blinding starlight to capture better photos of the planets around it.
But what, exactly, should astronomers be looking for besides the obvious existence of water? It's a question NASA has been asking for years. And to find the answer, it's looking at the single habitable planet it knows best: Earth. Back in 2009, the agency used its Deep Impact/EPOXI spacecraft to look back at Earth to see what it would look like from afar. And just last week, astrophysicists at Harvard proposed that we look for alien pollution, just like the stuff we make here on Earth.
Now, a group of NASA astrophysicists have published a paper that explains how they used an existing spacecraft to find out how alien life could detect Earth. According to Daily Galaxy, they did so by re-using existing data from NASA's Lunar Crater Observation and Sensing Satellite, or LCROSS, which collided with the Moon five years ago. Its mission was to find evidence of water—which it did! But as the research team explains in Detection of Ocean Glint and Ozone Absorption Using LCROSS Earth Observations, LCROSS inadvertently observed some fascinating things about Earth, too.
For example, when Earth is seen as a crescent from the surface of the moon, it reflects light from our oceans—an effect the researchers call Earth glint. "Also, the Earth at crescent phase, thanks to the ocean, can be twice as bright. If it's something you look for in exoplanets, it can be a significant effect," one author told Daily Galaxy. If alien astronomers are looking for Earth, this glint could be a major sign that live exists on our small blue dot. Another hint? Ozone.
Astronomers have wondered if we could observe other planets' "glint" for years, but this new research shows exactly what kind of tools we'd need to do it. For instance, detecting Earth glint is also a matter of choosing the right wavelength of light to look for—which means that this new information could inform how telescopes are built from here on out.