NASA’s James Webb Space Telescope continues to amaze, this time with an exquisite image revealing previously unseen galaxies in an area known as the North Ecliptic Pole.
The image is one of the few medium-deep, wide-field images of our cosmos and shows thousands of galaxies across a bewildering range of distances, stretching to the farthest reaches of the universe, while also being studded with stars from our own Milky Way. The new James Webb Space Telescope (Webb or JWST) image, which comes from the Prime Extragalactic Areas for Reionization and Lensing Science (PEARLS) program, also highlights a number of interacting galaxies.
“I was blown away by the first PEARLS images,” Rolf Jansen, an astronomer at Arizona State University and a PEARLS co-investigator, said in a statement.
“Little did I know, when I selected this field near the North Ecliptic Pole, that it would yield such a treasure trove of distant galaxies, and that we would get direct clues about the processes by which galaxies assemble and grow,” he said. “I can see streams, tails, shells, and halos of stars in their outskirts, the leftovers of their building blocks.”
Gallery: James Webb Space Telescope’s 1st photos
Webb’s Near-Infrared Camera (NIRCam) captured the sparkling scene, which covers a patch of sky measuring 2% of the area covered by the full moon. The image was constructed using eight different colors of near-infrared light collected by NIRCam, augmented with three colors of ultraviolet and visible light from the Hubble Space Telescope.
“Medium-deep” refers to the faintest objects that can be seen in this image, which are about 1 billion times fainter than what can be seen with the unaided eye, according to a NASA statement. The PEARLS program focuses on the gravitational lensing of objects in the background of galactic clusters; these clusters are so massive that they warp space-time, magnifying the light from objects behind them.
The location of this particular field of sky, at the north ecliptic pole, means it can also be monitored at any time of the year and not be blocked by the sun as JWST orbits. Regular views mean JWST can see what pops up in the field, promising opportunities for time-domain astronomy, which focuses on how astronomical objects change with time.
“Such monitoring will enable the discovery of time-variable objects like distant exploding supernovas and bright accretion gas around black holes in active galaxies, which should be detectable to larger distances than ever before,” Anton Koekemoer, an astronomer at the Space Telescope Science Institute (STScI) in Maryland, which operates JWST, and a PEARLS team member, said in the statement.
The research is described in a paper published Wednesday (Dec. 14) in the Astronomical Journal.
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