Research, Science & environment

Surprising details leap out in sharp new James Webb Space Telescope images of Jupiter

By Robert Sanders

blue and green orb of Jupiter, with a fringe of orange-red auroras at both poles
This July 27 image of Jupiter taken by the Near-Infrared Camera on the new James Webb Space Telescope is artificially colored to emphasize stunning details of the planet: auroral emission from ionized hydrogen at both the north and south poles (red); high-altitude hazes (green) that swirl around the poles; and light reflected from the deeper main cloud (blue). The Great Red Spot, the equatorial region and compact cloud regions appear white or reddish-white; regions with little cloud cover appear as dark ribbons north of the equatorial region. (Image credit: NASA, European Space Agency, Jupiter Early Release Science team. Image processing: Judy Schmidt) [Click here to download a high-resolution version of the photo, with a more detailed caption]

blue and green orb of Jupiter, with a fringe of orange-red auroras at both poles

This July 27 image of Jupiter taken by the Near-Infrared Camera on the new James Webb Space Telescope is artificially colored to emphasize stunning details of the planet: auroral emission from ionized hydrogen at both the north and south poles (red); high-altitude hazes (green) that swirl around the poles; and light reflected from the deeper main cloud (blue). The Great Red Spot, the equatorial region and compact cloud regions appear white or reddish-white; regions with little cloud cover appear as dark ribbons north of the equatorial region. (Image credit: NASA, European Space Agency, Jupiter Early Release Science team. Image processing: Judy Schmidt) [Click here to download a high-resolution version of the photo, with a more detailed caption]

The latest images of Jupiter from the James Webb Space Telescope (JWST) are stunners.

Captured on July 27, the infrared images — artificially colored to make specific features stand out — show fine filigree along the edges of the colored bands and around the Great Red Spot and also provide an unprecedented view of the auroras over the north and south poles.

One wide-field image presents a unique lineup of the planet, its faint rings and two of Jupiter’s smaller satellites — Amalthea and Adrastea — against a background of galaxies.

“We’ve never seen Jupiter like this. It’s all quite incredible,” said planetary astronomer Imke de Pater, professor emerita of the University of California, Berkeley, who led the scientific observations of the planet with Thierry Fouchet, a professor at the Paris Observatory. “We hadn’t really expected it to be this good, to be honest. It’s really remarkable that we can see details on Jupiter together with its rings, tiny satellites and even galaxies in one image.”

a colorful Jupiter with two moons and its rings aligned at the left

This false-color composite image of Jupiter was obtained July 27 with the NIRCam instrument on board the JWST. Jupiter’s faint rings — a million times dimmer than the planet — and two of its small satellites, Amalthea (left) and Adrastea (dot at edge of ring), are clearly visible against a background of distant galaxies. The diffraction pattern created by the bright auroras and the moon Io (to the left out of the image), form a complex background of scattered light around Jupiter. (Image credit: NASA, European Space Agency, Jupiter Early Release Science team. Image processing: Ricardo Hueso [UPV/EHU] and Judy Schmidt) [Click here to download a high-resolution version of the photo with detailed caption, plus a version with text labeling the moons and rings]

De Pater, Fouchet and their team released the images today (Aug. 22) as part of the telescope’s Early Release Science program.

In addition to the enormous storm referred to as the Great Red Spot, numerous storm systems — seen as small pallid ovals —are also visible, as are tiny bright plumes of cloud particles. The transition between organized zonal flows and the chaotic vortex patterns at higher latitudes is also clearly visible.

“Although we have seen many of these features on Jupiter before, JWST’s infrared wavelengths give us a new perspective,” said de Pater. “JWST’s combination of images and spectra at near- and mid-infrared wavelengths will allow us to study the interplay of dynamics, chemistry and temperature structure in and above the Great Red Spot and the auroral regions.”

Amalthea and Adrastea

JWST’s Near Infrared Camera (NIRCam) also captured a wide-field view of Jupiter revealing its rings and two of its moons.

“This image illustrates the sensitivity and dynamic range of JWST’s NIRCam instrument,” Fouchet said. “It reveals the bright waves, swirls and vortices in Jupiter’s atmosphere and simultaneously captures the dark ring system, 1 million times fainter than the planet, as well as the moons Amalthea and Adrastea, which are roughly 200 and 20 kilometers across, respectively. This one image sums up the science of our Jupiter system program, which studies the dynamics and chemistry of Jupiter itself, its rings and its satellite system.”

The JWST images were processed with the help of citizen scientist Judy Schmidt of Modesto, California, who has worked with Hubble Space Telescope and other telescope images for the past 10 years, and Ricardo Hueso, who studies planetary atmospheres at the University of the Basque Country in Spain. Hueso is one of several coinvestigators on the Early Release Science (ERS) program, and is leading the NIRCam observations of Jupiter’s atmosphere.

Schmidt’s love of astronomy images has led her to process images of nebulae, globular clusters, stellar nurseries and more spectacular cosmic objects.

“Something about it just stuck with me, and I can’t stop. I could spend hours and hours every day,” she said. Her goal, she added, is to “… try to get it to look natural, even if it’s not anything close to what your eye can see.”

Spectroscopic observations of Jupiter’s auroras are scheduled for later this year, while detailed spectroscopic observations of Jupiter’s Great Red Spot were taken on July 27 in the near-infrared and August 14-15 at mid-infrared wavelengths. The Great Red Spot observations are a joint project between the Early Release Science (ERS) team — with de Pater and Fouchet as co-principal investigators — and a program of Solar System observations developed by Heidi Hammel of the Association of Universities for Research in Astronomy (AURA), with the Jupiter observations led by Leigh Fletcher, a professor at the University of Leicester in England.

Other UC Berkeley members of the ERS team for Jupiter observations are research astronomer Mike Wong and postdoctoral fellow Ned Molter.

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