Hubble image shows two overlapping galaxies in cosmic coincidence

By Georgina Torbet Published September 11, 2022

This week’s image from the Hubble Space Telescope shows something of an optical illusion: two galaxies that appear to be colliding but are in fact merely overlapping by chance. Located more than a billion light-years away, the pair are two spiral galaxies, one face-on and one at an angle, which overlap to form a distinctive shape.

The galaxies, named SDSS J115331 and LEDA 2073461, were captured using Hubble’s Advanced Camera for Surveys instrument.

The NASA/ESA Hubble Space Telescope imaged these two overlapping spiral galaxies named SDSS J115331 and LEDA 2073461, which lie more than a billion light-years from Earth. Despite appearing to collide in this image, the alignment of the two galaxies is likely just by chance – the two are not actually interacting. While these two galaxies might simply be ships that pass in the night, Hubble has captured a dazzling array of other, truly interacting galaxies. — The NASA/ESA Hubble Space Telescope imaged these two overlapping spiral galaxies named SDSS J115331 and LEDA 2073461, which lie more than a billion light-years from Earth. ESA/Hubble & NASA, W. Keel

“Despite appearing to collide in this image, the alignment of the two galaxies is likely just by chance – the two are not actually interacting,” Hubble scientists write. “While these two galaxies might simply be ships that pass in the night, Hubble has captured a dazzling array of other, truly interacting galaxies.”

Recommended Videos

Some previous Hubble images of actually interacting galaxies include the galaxies NGC 7469 and IC 5283, which are close enough together to be known by a shared name, Arp 298. In this pair, one larger barred spiral galaxy is slowly merging with a smaller companion galaxy. And earlier this year, Hubble captured another galactic merger in a system known as the Angel Wing, where the merging galaxies have created a wing-like shape.

A Hubble image from last year showed how extreme conditions in galactic mergers can pull galaxies into different shapes as spiral arms can become distorted by the enormous gravitational forces involved in interactions. These interactions can result in streams of matter flowing between two interacting galaxies as they move close together.

Finally, one of Hubble’s most impressive images of galaxies interacting has to be its portrait of an object called NCG 1741, where no less than four dwarf galaxies are found within 75,000 light-years of each other. All four of these galaxies would fit within the space taken up by the Milky Way, and eventually, the entire group is predicted to end up as one single merged galaxy.

Georgina Torbet

Former Space Writer

Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…

Topics

Tech News

Space

Hubble captures image of a spectacular ‘stellar volcano’

Evolution of R Aquarii

A gorgeous image from the Hubble Space Telescope shows a nearby star called R Aquarii that is the site of dramatic activity: violent eruptions of matter that is thrown out into the space around it. Informally dubbed as a "stellar volcano" for the way it is throwing out matter like lava spewing from deep underground, the star makes for a stunning image, but it also holds an unexpected surprise. The star is not one single object, but two.

Known as a symbiotic variable star, it consists of a red giant and a white dwarf that orbit each other in an ongoing dance. The red giant pulses, with its temperature and brightness changing over a 390-day period. This intersects with the 44-year orbital period of the white dwarf. When the white dwarf starts to close in on the red giant, it sucks off some of its gas via gravity and builds up the disk around it until this collapses and explodes, throwing off jets of material. Then the cycle begins again.

Space

James Webb image shows two galaxies in the process of colliding

This composite image of Arp 107, created with data from the James Webb Space Telescope’s NIRCam (Near-InfraRed Camera) and MIRI (Mid-InfraRed Instrument), reveals a wealth of information about the star formation taking place in these two galaxies and how they collided hundreds of million years ago. The near-infrared data, shown in white, show older stars, which shine brightly in both galaxies, as well as the tenuous gas bridge that runs between them. The vibrant background galaxies are also brightly illuminated at these wavelengths.

A new image from the James Webb Space Telescope shows one of the universe's most dramatic events: the colliding of two galaxies. The pair, known as Arp 107, are located located 465 million light-years away and have been pulled into strange shapes by the gravitational forces of the interaction, but this isn't a purely destructive process. The collision is also creating new stars as young stars are born in swirling clouds of dust and gas.

The image above is a composite, bringing together data from Webb's NIRCam (Near-InfraRed Camera) and MIRI (Mid-InfraRed Instrument). These two instruments operate in different parts of the infrared, so they can pick up on different processes. The data collected in the near-infrared range is seen in white, highlighting older stars and the band of gas running between the two galaxies. The mid-infrared data is shown in orange and red, highlighting busy regions of star formation, with bright young stars putting out large amounts of radiation.

Space

Hubble images a pair of tiny dwarf galaxies

hubble dwarf galaxy pair ic3430 potw2431a 1

A new image from the Hubble Space Telescope shows a small dwarf galaxy called IC 3430 that's located 45 million light-years away. This galaxy is classified as both a dwarf galaxy, because of its small size, and an elliptical galaxy, because of its form.

Elliptical galaxies are smooth and featureless, appearing blob-like and diffuse, unlike spiral galaxies, like our Milky Way, which have a distinct structure of a central hub and stretching spiral arms.