Amanda Kooser - CNET
Like dogs, all galaxies are good galaxies, even the funky ones. But there's something about a spiral galaxy that gladdens my heart. Maybe it's the swirling sense of symmetry. Maybe it's because our own home Milky Way is a spiral. A new Hubble Space Telescope image of spiral galaxy NGC 1961 is giving me all the feels.
Spiral galaxy NGC 1961 positively glows in this Hubble Space Telescope image. NASA, ESA, J. Dalcanton (University of Washington), R. Foley (University of California - Santa Cruz); Image processing: G. Kober (NASA Goddard/Catholic University of America)© Provided by CNET
The scenic spiral is far away at a distance of 180 million light-years in the constellation Camelopardalis, also known as the Giraffe.
Here's the full Hubble view:
NGC 1961 in all its glory. NASA, ESA, J. Dalcanton (University of Washington), R. Foley (University of California - Santa Cruz); Image processing: G. Kober (NASA Goddard/Catholic University of America)© Provided by CNET
NASA shared the Hubble image on Wednesday. "Glittering, blue regions of bright young stars dot the dusty spiral arms winding around the galaxy's glowing center," the space agency said, showing a flair for poetic language.
There are different kinds of spiral galaxies. NASA classifies NGC 1961 as an intermediate spiral galaxy. The intermediate designation puts it in a gray area between spiral galaxies that have a notable bar of stars at their centers and those that don't. Check out this example of a barred galaxy appropriately called the Great Barred Spiral Galaxy.
Hubble and James Webb Space Telescope Images Compared: See the Difference
More stars. More galaxies. More data on exoplanets. Deeper into the history of the universe. The James Webb Space Telescope rocked astronomy with its first major image release on July 11, 2022. Comparisons between Hubble Space Telescope and Webb views of the same cosmic targets show just have far we've come.Webb launched over three decades after Hubble and represents the advancements in space telescope technology that have happened over that time. Webb is not here to steal Hubble's thunder. It's here to see the universe in a new way. This is what the James Webb Space Telescope looked like during a test deployment of its primary mirror in March 2020. We don't have any glorious space shots of Webb out in orbit. This mirror selfie will have to suffice. The telescope -- the subject of a controversy over its name -- uses a collection of gold-plated hexagonal mirrors and sees the universe in infrared light.
NASA has specifically called Webb the "successor" to Hubble and not its replacement. The Hubble Space Telescope launched in 1990 and has been operating in the challenging conditions of space for over 30 years, a remarkable lifespan. Hubble mainly sees in optical (visible) and ultraviolet wavelengths, so its "eyes" work differently from Webb, which sees in infrared. Infrared helps Webb gaze through dusty regions of space that Hubble can't penetrate.Webb's mirror is also much bigger than Hubble's. "This larger light collecting area means that Webb can peer farther back into time than Hubble is capable of doing," said NASA.© Provided by CNET
In 2012, a decade before Webb's first images came out, the Hubble team delivered the deepest view of space we'd ever seen, known as the eXtreme Deep Field (XDF). It was a new version of part of the telescope's older Ultra Deep Field image. The XDF showed about 5,000 galaxies with some of them reaching back to 13.2 billion years ago. NASA and the European Space Agency released a series of Hubble Deep Fields over the years. They're still beautiful, but they also highlight just how powerful Webb is by comparison.© Provided by CNET
The first major Webb image arrived with much fanfare on July 11, 2022. It represents the deepest infrared view of our universe yet. The area in the view is called SMAC 0723 and it's home to a huge galaxy cluster. The pointed objects are stars, while everything else is a galaxy. The image is called Webb's First Deep Field, which hints at much more to come. "Webb's image covers a patch of sky approximately the size of a grain of sand held at arm's length by someone on the ground -- and reveals thousands of galaxies in a tiny sliver of vast universe," said NASA.The clarity is astounding. It's like a time machine, showing SMAC 0723 as it looked 4.6 billion years ago.Check out a full breakdown on the first Webb images here.© Provided by CNET
This Hubble view of the northwest corner of the Carina Nebula was released in 2008. This area of the nebula is nicknamed the Cosmic Cliffs. It's quite a sight to behold, but it's also less clear than Webb's view. Webb's infrared eyes help reveal previously invisible areas of star birth that Hubble couldn't capture.© Provided by CNET
Hello, new computer wallpaper. One of the most eye-catching new James Webb Space Telescope images is this mounding mass of star birth in the Carina Nebula. "The blistering, ultraviolet radiation from the young stars is sculpting the nebula's wall by slowly eroding it away. Dramatic pillars tower above the glowing wall of gas, resisting this radiation," said ESA.Take note of how many stars you can see in this image. The entire landscape almost looks like it's in 3D.© Provided by CNET
The Southern Ring Nebula is also known as the Eight Burst Nebula thanks to its figure-8 appearance as seen by some telescopes. Hubble's 1998 look at the nebula is lovely, showing diffuse shades of blue, yellow and brownish-red. It has a bit of a blob-like, milky look to it. Buckle up for Webb's version next.© Provided by CNET
Holy details, Batman. Webb's view of the Southern Ring Nebula (formally known as NGC 3132) revealed new information about it. "The dimmer star at the center of this scene has been sending out rings of gas and dust for thousands of years in all directions, and NASA's James Webb Space Telescope has revealed for the first time that this star is cloaked in dust," said NASA.It shows just how beautiful dying stars can be.© Provided by CNET
NASA shared two different Webb perspectives on the Southern Ring Nebula. "The stars -- and their layers of light -- are prominent in the image from Webb's Near-Infrared Camera (NIRCam) on the left, while the image from Webb's Mid-Infrared Instrument (MIRI) on the right shows for the first time that the second star is surrounded by dust," said NASA.© Provided by CNET
Stephan's Quintet -- formally known as Hickson Compact Group 92 (HCG 92) -- is a group of five galaxies, four of which are busy interacting with each other. The group is in the constellation Pegasus. The lighter-colored galaxy to the left is actually closer to us and isn't a part of the in-crowd of the other four. Hubble's vision of the quintet from 2009 is plenty ethereal. Webb took a fresh look in 2022.© Provided by CNET
The James Webb Space Telescope's view of Stephan's Quintet took quite an effort to put together. It's made from nearly 1,000 separate image files. "With its powerful, infrared vision and extremely high spatial resolution, Webb shows never-before-seen details in this galaxy group," said NASA. "Sparkling clusters of millions of young stars and starburst regions of fresh star birth grace the image."© Provided by CNET
Let's wind the clock back to 1990 when the Hubble Space Telescope was still the new kid in the cosmos. To show how advanced Hubble was, NASA released a comparison of stars. The image of stars on the left came from a ground-based telescope in Chile while the image on the right was Hubble's much sharper "first light" view of the same stars. Hubble is now on the other end of the comparison as Webb delivers sparkling new images. It's the natural path of things when it comes to the onward march of space technology. Hubble has weathered many technical glitches over the decades, but NASA expects it will continue to serve the astronomy community for years, not in Webb's shadow, but as a venerated elder that's still delivering quality science.© Provided by CNET
NGC 1961 is also an active galactic nuclei (AGN) galaxy. "AGN galaxies have very bright centers that often far outshine the rest of the galaxy at certain wavelengths of light," said NASA. "These galaxies likely have supermassive black holes at their cores churning out bright jets and winds that shape their evolution."
But back to why I'm so enamored of this galaxy. It's the glow, the glitter, the slight angle, the swirls, like a cosmic Charybdis posing for a glamor shot. It's a dream-like image showing how a telescope can deliver a work of art every bit as moving as a fine painting. In short, it's just beautiful.
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