Skip to main content

NASA’s WFIRST telescope has a new approach to the hunt for exoplanets

NASA is working on a new instrument for spotting distant exoplanets — the Wide Field Infrared Survey Telescope, or WFIRST. This tool could be used to identify not only small, distant planets, but also other cosmic bodies like brown dwarfs and black holes.

Artist’s illustration of the WFIRST spacecraft.
Artist’s illustration of the WFIRST spacecraft. NASA’s Goddard Space Flight Center

Spotting exoplanets with microlensing

Most instruments for detecting exoplanets, such as NASA’s exoplanet hunter satellite TESS, work by using the transit method. This is where telescopes observe distant stars and look for periodic dimming in their brightness, which suggests the presence of a planet passing between the star and the telescope in an event called a transit.

Recommended Videos

WFIRST, however, will use both the transit method and a different method called microlensing. This is where, when a small planet passes in front of a star, it bends the light in a way that can be observed from a great distance. This technique works only on infrequent events where stars align just so, but the signals that these events produce are stronger than the signals from the transit method and can be used to detect smaller or more distant planets.

“Microlensing signals from small planets are rare and brief, but they’re stronger than the signals from other methods,” David Bennett, who leads the gravitational microlensing group at NASA’s Goddard Space Flight Center, said in a statement. “Since it’s a one-in-a-million event, the key to WFIRST finding low-mass planets is to search hundreds of millions of stars.”

WFIRST will make its microlensing observations in the direction of the center of the Milky Way galaxy. The higher density of stars will yield more exoplanet detections.
WFIRST will make its microlensing observations in the direction of the center of the Milky Way galaxy. The higher density of stars will yield more exoplanet detections. NASA's Goddard Space Flight Center/CI Lab

“Trying to interpret planet populations today is like trying to interpret a picture with half of it covered,” said Matthew Penny, an assistant professor of physics and astronomy at Louisiana State University in Baton Rouge who led a study to predict WFIRST’s microlensing survey capabilities. “To fully understand how planetary systems form we need to find planets of all masses at all distances. No one technique can do this, but WFIRST’s microlensing survey, combined with the results from Kepler and TESS, will reveal far more of the picture.”

“WFIRST’s microlensing survey will not only advance our understanding of planetary systems,” said Penny, “it will also enable a whole host of other studies of the variability of 200 million stars, the structure and formation of the inner Milky Way, and the population of black holes and other dark, compact objects that are hard or impossible to study in any other way.”

Georgina Torbet
Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…
Watch SpaceX’s Crew-4 astronauts arrive at new home in space
SpaceX Crew-4 arriving at the space station in April 2022.

SpaceX’s Crew-4 astronauts have safely boarded the International Space Station (ISS) after a 16-hour ride to the orbiting laboratory -- the fastest Crew Dragon trip to the facility yet.

NASA astronauts Kjell Lindgren, Bob Hines, and Jessica Watkins, together with Samantha Cristoforetti of the European Space Agency, traveled to the ISS aboard a Crew Dragon spacecraft, docking with the facility 260 miles above Earth at just after 7:35 p.m. ET (4:35 p.m. PT) on Wednesday, April 27.

Read more
Moon, Mars, and more: NASA extends 8 planetary missions
NASA's Mars Reconnaissance Orbiter (MRO).

NASA has decided to extend a range of active planetary science missions, a move that’s certain to delight scientists attached to the projects.

The space agency said the spacecraft -- the oldest of which launched more than 20 years ago -- had been selected to continue their operations because of their “scientific productivity and potential to deepen our knowledge and understanding of the solar system and beyond.”

Read more
Watch the splashdown of NASA’s first private ISS mission
watch the splashdown of nasas first private iss mission ax 1 homecoming

NASA’s first private mission to the International Space Station has ended successfully after the four-person crew splashed down in a SpaceX Crew Dragon capsule off the coast of Florida.

The four Ax-1 crewmembers -- Canadian investor and philanthropist Mark Pathy, American entrepreneur Larry Connor, former Israeli Air Force pilot Eytan Stibbe, and former NASA astronaut Michael López-Alegría -- came down in the Atlantic Ocean near Jacksonville, Florida, at 1:06 p.m. ET (10:06 p.m. PT) on Monday, April 25.

Read more