The JWST’s First Image of an Exoplanet

Posted on by onespaceman2000
Image (Credit): Exoplanet HIP 65426 b in different bands of infrared light, as seen from the JWST: purple shows the Near-Infrared Camera (NIRCam) instrument’s view at 3.00 micrometers, blue shows the NIRCam instrument’s view at 4.44 micrometers, yellow shows the Mid-Infrared Instrument (MIRI) instrument’s view at 11.4 micrometers, and red shows the MIRI instrument’s view at 15.5 micrometers. These images look different because of the ways the different Webb instruments capture light. A set of masks within each instrument, called a coronagraph, blocks out the host star’s light so that the planet can be seen. The small white star in each image marks the location of the host star HIP 65426, which has been subtracted using the coronagraphs and image processing. The bar shapes in the NIRCam images are artifacts of the telescope’s optics, not objects in the scene. (NASA/ESA/CSA, A Carter (UCSC), the ERS 1386 team, and A. Pagan (STScI))

It was only a matter of time, but even so it was pretty quick. The James Webb Space Telescope (JWST) has taken a direct image of an exoplanet. HIP 65426 b, a gas giant that lies 355 light-years away, is from 15 to 20 million years old and about 6 to 12 times the mass of Jupiter. This gas giant is also about 100 times farther from its host star than Earth is from the Sun, allowing the JWST to see the exoplanet’s light separate from its sun.

This is not the first direct image of an exoplanet. The Hubble Space Telescope has also captured images of exoplanets. For instance, in 2008 an astronomer using Hubble images reported on Fomalhaut b, a Jupiter-mass exoplanet that is about 25 light-years away and approximately 200 million years old. It takes close to 872 years for the exoplanet to orbit its sun. Fomalhaut b will most likely be another target for JWST in the near future.

Image (Credit): Hubble Space Telescope optical image from 2006 showing the belt of dust and debris (bright oval) surrounding the star Fomalhaut and the planet (inset) that orbits the star every 872 years and sculpts the inner edge of the belt. A coronagraph (center) on the Advanced Camera for Surveys blocks out the light of the star, which is 100 million times brighter than the planet. (Paul Kalas/UC Berkeley, NASA, ESA)