A magnificent new picture of Neptune and its rings is captured by the Webb telescope.

A magnificent new picture of Neptune and its rings is captured by the Webb telescope.

The James Webb Space Telescope has turned its gaze away from the deep universe toward our home Solar System, capturing an image of a luminous Neptune and its delicate, dusty rings in detail not seen in decades, NASA said Wednesday.

The last time astronomers had such a clear view of the farthest planet from the sun was when NASA’s Voyager 2 became the first and only space probe to fly past the ice giant for just a few hours in 1989.

Now Webb’s unprecedented infrared imaging capabilities has provided a new glimpse into Neptune’s atmosphere, said Mark McCaughrean, a senior advisor for science and exploration at the European Space Agency.

The telescope “takes all that glare and background away” so that “we can start to tease out the atmospheric composition” of the planet, McCaughrean, who has worked on the Webb project for more than 20 years, told AFP.

Neptune appears as deep blue in previous images taken by the Hubble Space Telescope due to methane in its atmosphere. However the near-infrared wavelengths captured by Webb’s primary imager NIRCam shows the planet as a greyish white, with icy clouds streaking the surface.

“The rings are more reflective in the infrared,” McCaughrean said, “so they’re much easier to see.”

The image also shows an “intriguing brightness” near the top of Neptune, NASA said in a statement. Because the planet is tilted away from Earth and takes 164 years to orbit the Sun, astronomers have not yet had a good look at its north pole.

Webb also spotted seven of Neptune’s 14 known moons.

Space Telescope Neptune

This composite image provided by NASA on Sept. 21, 2022, shows three side-by-side images of Neptune. From left, a photo of Neptune taken by Voyager 2 in 1989, Hubble in 2021, and Webb in 2022.  AP

Looming over Neptune in a zoomed-out image is what appears to be a very bright spiky star, but is in fact Triton, Neptune’s strange, huge moon haloed with Webb’s famed diffraction spikes.

Triton, which is larger than dwarf planet Pluto, appears brighter than Neptune because it is covered in ice, which reflects light. Neptune meanwhile “absorbs most of the light falling on it,” McCaughrean said.

Because Triton orbits the wrong way around Neptune, it is believed to have once been an object from the nearby Kuiper belt which was captured in the planet’s orbit.

“So it’s a pretty cool to go and have a look at,” said McCaughrean.

As astronomers sweep the universe searching for other planets like our own, they have found that ice giants such as Neptune and Uranus are the most common in the Milky Way.

“By being able to look at these ones in great detail, we can key into our observations of other ice giants,” McCaughrean said.

Operational since July, Webb is the most powerful space telescope ever built, and has already unleashed a raft of unprecedented data. Scientists are hopeful it will herald a new era of discovery.

Research based on Webb’s observations of both Neptune and Triton is expected in the next year.

“The kind of astronomy we’re seeing now was unimaginable five years ago,” McCaughrean said.

“Of course, we knew that it would do this, we built it to do this, it is exactly the machine we designed,” he said. “But to suddenly start seeing things in these longer wavelengths, which were impossible before… it’s just absolutely remarkable.”

Space Telescope Neptune

This image provided by NASA on Wednesday, Sept. 21, 2022, shows the Neptune system captured by Webb’s Near-Infrared Camera. / AP

Earlier this month, the world’s newest and biggest space telescope captured an extremely detailed image of thousands of never-before-seen young stars in a region known as the Tarantula Nebula.

This summer, the telescope captured a stunning images of Jupiter and also provided the clearest look of the Cartwheel Galaxy so far.

Unlike the Hubble Space Telescope, which mostly observes light in the visible part of the spectrum, Webb is optimized to study longer-wavelength infrared radiation, allowing it to capture light from the dawn of the universe that’s been stretched out by the expansion of space itself over the past 13.8 billion years.

Last month, the European Space Agency released a new photo capturing the heart of Messier 74, located 32 million light years away in the Pisces constellation, in a view that combines the Hubble telescope with the Webb telescope.

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