Posted on 05/12/2025 5:07:55 AM PDT by Red Badger
This image of Uranus from NIRCam (Near-Infrared Camera) on NASA’s James Webb Space Telescope exquisitely captures Uranus’s seasonal north polar cap and dim inner and outer rings. This Webb image also shows 9 of the planet’s 27 moons – clockwise starting at 2 o’clock, they are: Rosalind, Puck, Belinda, Desdemona, Cressida, Bianca, Portia, Juliet, and Perdita. Credit: NASA, ESA, CSA, STScI
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A rare celestial alignment in April 2025 gave NASA scientists the chance to study Uranus in exceptional detail as it passed in front of a distant star.
This stellar occultation, visible only from parts of western North America, allowed researchers to measure changes in Uranus’ atmosphere that haven’t been studied this thoroughly in decades.
Rare Uranus Event Offers a Glimpse Into Its Atmosphere On April 7, Uranus moved perfectly between Earth and a distant star, creating a rare cosmic event known as a stellar occultation. But for NASA scientists, this wasn’t just a beautiful alignment. It was a golden opportunity to study the mysterious ice giant in ways we haven’t been able to in over 30 years.
By watching how the star’s light dimmed and brightened as it passed behind Uranus, scientists were able to measure key features of the planet’s atmosphere, like its temperature, pressure, and density, in incredible detail. This flickering of starlight creates something called a light curve, and it’s a powerful tool for unlocking secrets hidden high in the planet’s skies.
Artist’s illustration showing a distant star going out of sight as it is eclipsed by Uranus – an event known as a planetary stellar occultation. Credit: NASA/Advanced Concepts Laboratory
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A Light Curve Unlocks Atmospheric Secrets
“Uranus passed in front of a star that is about 400 light years from Earth,” said William Saunders, planetary scientist at NASA’s Langley Research Center in Hampton, Virginia, and science principal investigator and analysis lead, for what NASA’s team calls the Uranus Stellar Occultation Campaign 2025. “As Uranus began to occult the star, the planet’s atmosphere refracted the starlight, causing the star to appear to gradually dim before being blocked completely. The reverse happened at the end of the occultation, making what we call a light curve. By observing the occultation from many large telescopes, we are able to measure the light curve and determine Uranus’ atmospheric properties at many altitude layers.”
“We are able to measure the light curve and determine Uranus’ atmospheric properties at many altitude layers.”
William Saunders, Planetary Scientist at NASA’s Langley Research Center
This detailed data from Uranus’ stratosphere, the middle layer of its atmosphere, will help scientists understand how the planet’s climate works today, how it’s changed over decades, and what to expect for future missions to this distant, icy world.
VIDEO AT LINK...................
This rendering demonstrates what is happening during a stellar occultation and illustrates an example of the light curve data graph recorded by scientists that enables them to gather atmospheric measurements, like temperature and pressure, from Uranus as the amount of starlight changes when the planet eclipses the star. Credit: NASA/Langley Research Center Advanced Concepts Laboratory
A Coordinated Global Effort to Observe Uranus
To observe the rare event, which lasted about an hour and was only visible from Western North America, planetary scientists at NASA Langley led an international team of over 30 astronomers using 18 professional observatories.
“This was the first time we have collaborated on this scale for an occultation,” said Saunders. “I am extremely grateful to each member of the team and each observatory for taking part in this extraordinary event. NASA will use the observations of Uranus to determine how energy moves around the atmosphere and what causes the upper layers to be inexplicably hot. Others will use the data to measure Uranus’ rings, its atmospheric turbulence, and its precise orbit around the Sun.”
Unraveling Uranus’ Orbit and Ring Mysteries
Knowing the location and orbit of Uranus is not as simple as it sounds. In 1986, NASA’s Voyager 2 spacecraft became the first and only spacecraft to fly past the planet, 10 years before the last bright stellar occultation occurred in 1996. And, Uranus’ exact position in space is only accurate to within about 100 miles, which makes analyzing this new atmospheric data crucial to future NASA exploration of the ice giant.
These investigations were possible because the large number of partners provided many unique views of the stellar occultation from many different instruments.
NASA’s Infrared Telescope Facility Joins the Effort
Emma Dahl, a postdoctoral scholar at Caltech in Pasadena, California, assisted in gathering observations from NASA’s Infrared Telescope Facility (IRTF) on the summit of Mauna Kea in Hawaii – an observatory first built to support NASA’s Voyager missions.
“As scientists, we do our best work when we collaborate. This was a team effort between NASA scientists, academic researchers, and amateur astronomers,” said Dahl. “The atmospheres of the gas and ice giant planets [Jupiter, Saturn, Uranus, and Neptune] are exceptional atmospheric laboratories because they don’t have solid surfaces. This allows us to study cloud formation, storms, and wind patterns without the extra variables and effects a surface produces, which can complicate simulations very quickly.”
Test Run Over Asia Sharpens April Predictions
On November 12, 2024, NASA Langley researchers and collaborators were able to do a test run to prepare for the April occultation. Langley coordinated two telescopes in Japan and one in Thailand to observe a dimmer Uranus stellar occultation only visible from Asia. As a result, these observers learned how to calibrate their instruments to observe stellar occultations, and NASA was able to test its theory that multiple observatories working together could capture Uranus’ big event in April.
Researchers from the Paris Observatory and Space Science Institute, in contact with NASA, also coordinated observations of the November 2024 occultation from two telescopes in India. These observations of Uranus and its rings allowed the researchers, who were also members of the April 7 occultation team, to improve the predictions about the timing on April 7 down to the second and also improved modeling to update Uranus’ expected location during the occultation by 125 miles.
What Makes Uranus an Ice Giant
Uranus is almost 2 billion miles away from Earth and has an atmosphere composed primarily of hydrogen and helium. It does not have a solid surface, but rather a soft surface made of water, ammonia, and methane. It’s called an ice giant because its interior contains an abundance of these swirling fluids that have relatively low freezing points. And, while Saturn is the most well-known planet for having rings, Uranus has 13 known rings composed of ice and dust.
Looking Ahead: A Brighter Occultation in 2031
Over the next six years, Uranus will occult several dimmer stars. NASA hopes to gather airborne and possibly space-based measurements of the next bright Uranus occultation in 2031, which will be of an even brighter star than the one observed in April.
What these telescopes actually use are highly sophisticated spectrometers that can tell you details of the chemical composition of the atmosphere and the degree of ionization at various points in the atmosphere. Spectroscopic line positions and line-widths all contribute to estimates of temperature and density. That is why you need multiple telescopes all operating at the same time. The author could have said something about all of that.
OK, I’ll have a go at it....
What do the Starship Enterprise and toilet paper have in common?
They’re both flying out past Uranus looking for Klingons.
Had to look twice to make sure Laz did not post this article based upon the title!
Jeez, a serious comment after 40 posts. The horror, the horror. ;-)
Fry: Oh, man, this is great! Hey, as long as you don’t make me smell Uranus.
[He laughs.]
Leela: I don’t get it.
Farnsworth: I’m sorry, Fry, but astronomers renamed Uranus in 2620 to end that stupid joke once and for all..
Fry: Oh. What’s it called now?
Farnsworth: Urectum.
And I didn’t feel anything.
This made me spit my coffee.
It looks much better than I imagined.
Does anybody review headlines anymore before release?
We meant to do this a long time ago but it fell through the cracks.
47 replies in an hour folks.
Do better.
NASA Just Got a Rare Look Inside Uranus – Here’s What They Found.
ADAM SHIFT !!!
“NASA Just Got a Rare Look Inside Uranus – Here’s What They Found”
A Chuck Schumer look alike?
So, when does NASA try to go to Youranus?
We all knew that NASA employed many anal retentive scientists. This is just the proof. No one can deny that NASA spends millions are spent in an obsession to photograph Uranus despite the intrusion into privacy. Lawyers are lining up to file civil rights violations.
HIPAA LAWS apply?..................
Lemiwinks?
Gerbils?............................
Neptune doesn’t get this kind of attention. That’s just faulty marketing.
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