(Opens in a new tab)
NASA agency James Webb Space Telescope Take the perfect shot of “Einstein’s Ring”. The stunning halo is the result of light from a distant galaxy passing through spacetime twisted around another galaxy aligned between a distant light source and Earth. The new image, created by an astronomy enthusiast on Reddit, is one of the best examples of a triple astronomical phenomenon ever captured.
The ring of light in the new picture comes from afar galaxy SPT-S J041839-4751.8 (or JO418 for short), which is about 12 billion light-years from Earth, making it one of the oldest galaxies in the world. Universe. JO418 is heading directly behind another galaxy – the bright blue light in the ring center – which is so massive that its gravity distorts spacetime around it. When light from JO418 reaches the foreground galaxy, it travels through this twisted spacetime. From Earth, it looks as if light has curved around the galaxy, but the electromagnetic waves we’re seeing have actually been moving in a straight line the whole time.
This strange effect is similar to how glass lenses redirect light. Like magnifying lenses, this phenomenon makes light from distant galaxies appear much closer than it actually is. The only difference is that the lens is made of gravitationally distorted spacetime rather than glass. As a result, the researchers called this triple effect a gravitational lensing. Albert Einstein The gravitational lens was first predicted in 1912, when he invented it Theory of relativity.
Related: 8 ways you can see Einstein’s theory of relativity in real life
Reddit user and astronomy graduate student “Spaceguy44” posted a picture of Einstein’s JOS18 episode on August 23 in the r/astronomy subreddit. The anonymous astronomer created the shot using publicly available data collected by the Medium Infrared Instrument (MIRI) instrument on the James Webb Space Telescope.
“We wouldn’t be able to see J0418 without the gravitational bending properties of light,” Spaceguy44 wrote on Reddit. Without the lens effect, a galaxy would likely look like distant galaxies: a tiny point of light.
(Opens in a new tab)
The new image isn’t the first glimpse of JO418, but it’s the most detailed one yet.
In 2020, researchers discovered the distant galaxy after discovering partial gravitational lensing using the Atacama Large Millimeter/Submatter Array (ALMA) in Chile; They reported the discovery in a paper published that year in the journal Nature (Opens in a new tab).
On August 13, Spaceguy44 released an image of JO418 using data collected by Webb’s NIRCam tool, but the initial shot was much lower resolution and the light ring was less visible, according to ScienceAlert.
NASA’s Hubble Space Telescope has captured images of many other Einstein rings, including One consists of distorted quasar light. However, none of these Einstein rings were as complete or clearly visible as the one in the new image.
Perfectly circular Einstein rings are extremely rare because they require both distant and foreground galaxies to align perfectly with the observer. However, the more advanced sensors on Webb make it easier to detect them in the future.
The recently released image is the latest example of the high definition view of the universe that Webb will make available to both researchers and the general public. space telescope which Released his first photo In July, I already cut a file Stunning infrared image of the buyera Stunning view of the Kartwell wheel galaxyThe The deepest picture of the universe ever taken And other amazing photos.
Originally published on Live Science.
#Stunningly #perfect #Einstein #ring #captured #James #Webb #Space #Telescope