DECam’s Deep View of Abell 3667 Illuminates the Past of a Galaxy Cluster and the Future of Astronomical Imaging
An actively merging galaxy cluster is featured in this image assembled from a total of 28 hours of observations with the 570-megapixel Department of Energy-fabricated Dark Energy Camera, mounted on the U.S. National Science Foundation Víctor M. Blanco 4-meter Telescope at Cerro Tololo Inter-American Observatory, a Program of NSF NOIRLab. The image gives a tantalizing hint of how intracluster light will be revealed by NSF–DOE Vera C. Rubin Observatory’s Legacy Survey of Space and Time.
Galaxy clusters are among the largest structures in our Universe, consisting of hundreds or thousands of galaxies that have become gravitationally bound together over billions of years. Astrophysicists have long been eager to understand the formation of these imposing structures. The histories of galaxy clusters not only help us understand how the Universe formed, but they also provide constraints on the properties of dark matter — an invisible material that doesn’t emit or reflect light and is found in high concentrations around clusters of galaxies.
One clue astronomers look for to understand the history of a galaxy cluster is intracluster light — the faint glow emitted by stars that have been stripped from their original galaxies by the immense gravity of a forming galaxy cluster. These stars serve as whispering evidence of past galactic interactions, though most existing telescopes and cameras struggle to capture them.
The delicate intracluster light of galaxy cluster Abell 3667 shines prominently in this elusive image captured by the 570-megapixel Department of Energy-fabricated Dark Energy Camera (DECam), mounted on the U.S. National Science Foundation Víctor M. Blanco 4-meter Telescope at Cerro Tololo Inter-American Observatory (CTIO), a Program of NSF NOIRLab. Abell 3667 is more than 700 million light-years away from us. The great majority of faint sources of light in this image are very distant galaxies, and not foreground stars in our own galaxy.
Within Abell 3667, two smaller galaxy clusters are actively merging together, evidenced by the glowing bridge (yellow) of stars stretching across the center of this image. This bridge connects the hearts of the two galaxy clusters, known as their brightest cluster galaxies, and forms out of material stripped from the galaxies as they merge to form one massive conglomerate.
Not only is this sequined sky full of faraway galaxies, but faint foreground features are also illuminated from its long exposure time. Milky Way cirrus, or integrated flux nebulae, are faint, wispy clouds of interstellar dust that can be seen as faint bluish strands criss-crossing the image. These cirrus are patches of dust illuminated by the combined light of stars within our own galaxy. They appear as diffuse, filamentary structures that can cover large areas of the sky.
Created from a total of 28 hours of observations, this is the deepest image of Abell 3667 ever assembled. Such a long exposure is necessary to detect the faint, diffuse brightness of the cirrus, which is typically only a small percent of the brightness of the night sky, as well as the even fainter intracluster light.