From its perch one million miles from Earth, the James Webb Space Telescope has peered deep into our solar system to capture images of Neptune. These new views show seven of the distant planet's 14 known moons, but it's the rings that really take the spotlight.
The pictures, taken in July and released Wednesday, provide the clearest and most detailed look at Neptune's rings since NASA’s Voyager 2 spacecraft flew by the planet in 1989, according to Marcia Dunn of the Associated Press (AP).
“I have been waiting so long for these images of Neptune,” Heidi Hammel, a NASA interdisciplinary scientist for the Webb telescope, tells the New York Times’ Jonathan O’Callaghan. “I’m so happy that it has worked.”
A zoomed out picture from Webb shows distant galaxies in the background. NASA, ESA, CSA, STScI |
To get these new images, the Webb telescope detected near-infrared light, which is outside the visible spectrum. The pictures show Neptune’s thin rings as well as faint dust bands, which scientists had never seen in the infrared spectrum before.
“The rings are more reflective in the infrared,” Mark McCaughrean, a senior advisor for science and exploration at the European Space Agency said. “So they’re much easier to see.”
Astronomers will be able to measure the reflectivity of the rings using Webb, and more research could provide insight into their size and composition, writes the Times. “The ring system was absolutely mind-boggling to me,” Hammel says. “I have not seen it in that level of detail since the Voyager encounter in 1989. It just pops right out.”
Neptune, the farthest planet from the sun, was discovered in 1846. Its small, rocky core is surrounded by a hot, dense fluid of water, methane and ammonia. In previous images of Neptune taken by the Hubble Telescope, the planet has a Smurf-like blue hue, which is caused by methane in its atmosphere.
To Webb’s infrared gaze, though, Neptune doesn’t appear so blue—since methane absorbs infrared light, the areas of the planet not covered by bright, high-altitude clouds seem dark to the high-tech telescope.
These methane ice-clouds appear in Webb’s images as bright streaks and spots, since they reflect sunlight, per CNN’s Katie Hunt. Though the clouds can last for days in Neptune’s atmosphere, “nobody really knows what these things are,” says Patrick Irwin, a planetary physicist at Oxford University in England. “They seem to come and go, a bit like cirrus clouds on Earth.”
In a zoomed-out picture, an object that looks like a bright star shines above Neptune. In reality, it’s no star—it’s Neptune’s largest moon, Triton, which is covered by a frozen layer of nitrogen, according to Space.com. Triton is larger than Pluto and appears so bright because its ice layer is reflective.
This image labels seven of Neptune's 14 known moons. NASA, ESA, CSA, STScI |
The images also show a thin, bright line circling the planet’s equator. It could be a sign of Neptune’s atmosphere circulating, powering its winds and storms, according to a statement from NASA. As the atmosphere warms at the equator, it emits more infrared light that Webb picks up as a glowing line.
Webb is mostly studying the early universe, looking far beyond our solar system for glimpses of the formation of the first stars and galaxies.
But it’s also telling us more about planets closer to home. Space agencies released images of Mars earlier this week and unveiled the telescope’s view of Jupiter in August.
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