Since the first images of NASA’s new James Webb surfaced in July, a steady stream of stunning images have been released from the pioneering telescope.
The $10 billion James Webb Telescope, which replaced the old Hubble Telescope and launched into space in December 2021, has captured distant galaxies, glowing stars light years away and a new image of Jupiter.
Here are five of the most amazing photos that James Webb has taken so far.
Southern Ring Nebula
One of the most popular websites on the Internet is . Southern Ring Nebulawhich were among Webb’s first images released on July 12.
Webb captured the remains of a white dwarf – the remains of a star that burned all its nuclear fuel and expelled its outer shell into a planetary nebula.
The telescope collects images in infrared light. Compared to Hubble, the James Webb Telescope can capture space in the infrared with much greater power, “with never-before-seen images of the universe,” NASA officials wrote on the agency’s website.
NASA has released an image of the Southern Ring Nebula in near-infrared (NIRcam) and mid-infrared (MIRcam) light, the first closer to the visible wavelength that the normal human eye can see, making the images hotter and higher. The solution.
However, the MIRcam can capture things in more detail. For example, the mid-infrared image of the Southern Ring Nebula shows a clearer view of a bright star shining in the background behind the white dwarf.
Another popular image is cosmic slopes The edge of a star-forming region that NASA likened to “rocky mountains on a moonlit night”.
A young star-forming region called NGC 3324 lies more than 7,000 light-years away in the Carina Nebula. NASA images of this space in the universe show a massive gas cavity at the edge of NGC 3324 in an orange and blue collage.
“The nebula’s cavernous region was formed by intense ultraviolet radiation and stellar winds from hot, massive young stars in the center of the bubble,” the officials wrote on the website.
On NIRcam, viewers can see hundreds of stars hidden from the normal human eye, as well as many galaxies shimmering in the background.
NGC 3324 was first recorded by astronomer James Dunlop in 1826.
galaxy wheel chariot
This is it August 2 photos The Chariot Wheel Galaxy resembles the bright red galactic ferris wheel in space.
The Cartwheel Galaxy formed about 400 million years ago as a result of high-speed collisions. Webb captured them in Transition as images of the universe light years away staring back in time due to the time it takes to open and capture them.
This spiral galaxy consists of two rings, a brighter inner ring and a colorful outer ring, according to NASA. Inside the wheel there are bright red rims or streaks caused by the glow of hydrocarbon-rich dust.
the web The last photo was released this week It is a beautiful picture of Earth’s neighbor in the solar system.
The image of Jupiter, made up of three filters, shows “fog circling the north and south poles” of the gaseous planetary giant.
It also highlights the Great Red Spot, an extremely massive storm that will engulf the Earth, in a large white band around the gas giant.
Emke de Pater, UC Berkeley professor emeritus and co-leader of Jupiter observations, said the team was surprised by the planet’s details.
“We didn’t expect it to be this good,” Butter said in a statement to the NASA Blog. “It’s really cool to be able to see details about Jupiter with its rings, little moons, and even galaxies in one picture.”
Galaxy SMACS 0723 series
This image looks a bit blurry, it’s amazing because it shows thousands of galaxies in a distant group known as SMAX 0723.
This image, one of the first that Webb released on July 12, is the first deep-field telescope image.
In the center of the image is a bright white elliptical galaxy that trumps the rest, with pointed arms extended in five directions. Surrounded by galaxies of all shapes and sizes, it engulfs the image and shows how vast the universe is.
This photo was a milestone, NASA Wrote In July, he showed how Webb “will enable future researchers to catalog the minute structures of the early universe’s galaxies, which could ultimately change our understanding of how galaxies have changed and evolved over billions of years.”