5 hours ago
2
This artist’s visualisation of WASP-127b, a giant gas planet located about 520 light-years from Earth, shows its newly discovered supersonic jet winds that move around the planet’s equator. With a speed of 9 km per second (33 000 km/h), this is the fastest jetstream of its kind ever measured in the Universe.
ESO/L. Calçada
Planets outside our solar system can be wild, weird places. Astronomers have discovered exoplanets shaped like a rugby ball, or where it rains gems, or which have one hemisphere covered in lava. And now there’s a new oddity to add to the catalog: a planet with winds that are faster than the speed of sound.
WASP-127b is a huge, puffy sphere which is one of the least dense planets ever discovered. It is larger than Jupiter, but has less than a fifth of Jupiter’s mass, making it unlike anything in our solar system. And its oddity has made it a favorite target for study, with astronomers observing clouds there in 2022, making it one of the few detections of clouds on a planet outside our solar system.
Now, astronomers have gone back to study the planet again using the European Southern Observatory’s Very Large Telescope (ESO’s VLT), and they observed winds reaching incredible speeds of up to 20,000 mph. For reference, the fastest winds ever observed in our solar system are on Neptune, and had a speed of 1,120 mph — nowhere even close to these speeds.
Please enable Javascript to view this content
The astronomers were able to identify these extreme winds by looking at the movement of the planet’s atmosphere. “Part of the atmosphere of this planet is moving towards us at a high velocity while another part is moving away from us at the same speed,” explained lead researcher Lisa Nortmann of the University of Göttingen, Germany. “This signal shows us that there is a very fast, supersonic, jet wind around the planet’s equator.”
The winds move far faster than the planet is rotating, at six times the speed, which has not been seen before and which creates a jetstream whipping around the planet. The extreme nature of the weather on this planet may be because researchers think that it is tidally locked, meaning one side of the planet always faces its star, while the other side always faces out into space. One side of the planet therefore gets hotter than the other, and the temperature difference between these two hemispheres may contribute to the very high winds which flow around the planet.
However, the researchers also discovered another noteworthy feature about the planet — it has poles which are cooler than the rest of the planet. “This shows that the planet has complex weather patterns just like Earth and other planets of our own System,” said fellow researcher Fei Yan of the University of Science and Technology of China.
In the future, the researchers want to use instruments like the upcoming Extremely Large Telescope to study the planet’s weather in even greater detail. “This means that we can likely resolve even finer details of the wind patterns and expand this research to smaller, rocky planets,” said Nortmann.
The research is published in the journal Astronomy & Astrophysics.
Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…
Gaia data shows hundreds of tiny moons orbiting around asteroids
There are plenty of moons orbiting around the planets in our solar system -- Saturn, for example, has well over 100 known moons -- and astronomers believe that planets outside our solar system almost certainly have moons too, called exomoons. Those are particularly hard to spot, but now researchers have a new bevy of a different type of moon to explore: those that orbit around asteroids.
It seems funny to think of it, but it's actually quite common for asteroids to have tiny moons of their own. These form what is called a binary asteroid, like the famous pair of Didymos and Dimorphos, which NASA crashed a spacecraft into in 2022. The new data about binary asteroids comes from the European Space Agency's Gaia mission, a space-based telescope that has spotted new potential moons around 350 asteroids.
Read more
Watch this first-ever fly-around of a huge piece of space junk
Orbital debris removal company Astroscale says it's achieved a technical milestone for a commercial company by conducting the first-ever controlled fly-around of a large piece of space junk.
The Japanese company said that the maneuver, captured in a timelapse (below), will lay the groundwork for future orbital junk removal that will pave the way for a sustainable space environment.
Read more
James Webb takes rare direct image of a nearby super-Jupiter
Even with huge ground-based observatories and the latest technology in space-based telescopes, it's still relatively rare for astronomers to take an image of an exoplanet. Planets outside our solar system are so far away and so small and dim compared to the stars they orbit that it's extremely difficult to study them directly. That's why most observations of exoplanets are made by studying their host stars. Now, though, the James Webb Space Telescope has directly imaged a gas giant -- and it's one of the coldest exoplanets observed so far.
The planet, named Epsilon Indi Ab, is located 12 light-years away and has an estimated temperature of just 35 degrees Fahrenheit (2 degrees Celsius). The fact it is so cool compared to most exoplanets meant that Webb's sensitive instruments were needed to study it.
Read more
![iOS Decoded: iOS 18.3 RC new hidden features, changes and updates [Videos]](https://i0.wp.com/9to5mac.com/wp-content/uploads/sites/6/2025/01/iOS-18.3-Release-Candidate.jpg?resize=1200%2C628&quality=82&strip=all&ssl=1)
English (US) ·