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NASA
Sam Macdonald · 2026-07-06 · via Scientific American Content: Global

The exoplanet telescope TESS revealed a distant world using an entirely different detection method than the one it was built around

An artist's depiction of a vibrant planet orbiting a bright star in a cosmic landscape.

Artist’s concept visualizing Gaia23bra b, the first microlensing planet orbiting a distant star found by NASA’s TESS (Transiting Exoplanet Survey Satellite).

NASA’s Goddard Space Flight Center

It seems that NASA’s Transiting Exoplanet Survey Satellite (TESS) is an overachiever.

When NASA launched TESS in 2018, the satellite had one job: watch nearby stars for the tiny dips in brightness caused by planets passing in front of them. It has done that spectacularly well, discovering hundreds of new worlds. Now scientists have realized TESS was also collecting evidence for something it was never expected to find.

In a study published July 1 in the Astrophysical Journal Letters, researchers report that TESS captured the signal of Gaia23bra b, a planet orbiting a star nearly 40,000 light-years away—more than 250 times the distance of the nearby stars TESS was designed to study.


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It’s a bit like pointing a backyard bird camera at your feeder and later realizing you also captured wildlife on another continent.

Even more surprising, TESS found the planet using a technique it wasn’t designed to use.

The discovery began in April 2023, when the European Space Agency’s Gaia spacecraft spotted a brief brightening of a distant star. That flash was caused by gravitational microlensing, a phenomenon predicted by Albert Einstein.

When two stars align almost perfectly from Earth’s perspective, the gravity of the nearer one bends and magnifies the light from the more distant star, acting like a cosmic magnifying glass. If that foreground star hosts a planet, the planet leaves ripples in the magnified light.

Gaia recorded the stellar brightening, but it didn’t collect enough observations to reveal the planet itself. Fortunately, less than a month later, TESS happened to be staring at the same patch of sky.

“Gaia’s observations were too sparse to pick up on the planet,” Mallory Harris, a Ph.D. candidate at the University of New Mexico and lead author of the study, said in a statement. “The TESS spacecraft happened to be monitoring the same area of the sky during the microlensing event, and its denser time coverage showed extra features in the light curve caused by a planet.”

But nobody noticed.

Why would they?

“When TESS launched, no one expected it to ever be capable of finding this kind of planet,” study co-author Diana Dragomir, an assistant professor at the University of New Mexico, said in the same statement.

The microlensing lineup between the two stars came and went in 2023, and the telltale planetary signal sat unnoticed in TESS’s archive for nearly three years before researchers connected the dots.

“The discovery implies that there are probably other so-called microlensing planets hiding in TESS’s data that we hadn’t previously thought to look for,” Dragomir said.

The find suggests one of NASA’s most successful planet hunters may still have plenty of surprises hiding in its archives.

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