File:Caldwell 24 - 2.jpg

English: With this image, Hubble became the first to resolve giant but delicate filaments of gas shaped by strong magnetic fields around Caldwell 24 — an elliptical galaxy also known as Perseus A and cataloged as NGC 1275. Scientists believe that the hearts of most large galaxies may host a supermassive black hole, with millions or even billions of times the Sun’s mass. As gas falls toward the black hole, it gathers into a so-called accretion disk and becomes compressed and heated, ultimately emitting X-rays. Caldwell 24 is known to scientists as an “active galaxy,” with its central black hole generating unusually powerful X-ray and radio emission.

The tendrils that reach out beyond the galaxy are the only visible-light manifestation of the black hole’s effect on the surrounding gas within the cluster of galaxies that Caldwell 24 belongs to. Hubble’s observations of Caldwell 24, taken in visible light with the Advanced Camera for Surveys in 2006, marked the first time the individual threads of gas that make up the filaments were resolved. These wispy structures extend up to 20,000 light-years out into the cosmos — around 5,000 times farther than the distance between the Sun and its closest neighboring star, Proxima Centauri. An average filament contains about a million times more mass than our Sun.

The filaments are formed when cold gas from the core of the galaxy is dragged out in the wake of the rising bubbles blown by the black hole. These gossamer strands have somehow withstood the hostile, high-energy environment of the galaxy cluster for over 100 million years. Astronomers believe that magnetic fields may hold the charged gas in place, acting against the tendency to either disperse and evaporate or collapse to form new stars.

At a distance of about 230 million light-years, Caldwell 24 is actually one of the closest giant elliptical galaxies to Earth. It was discovered by William Herschel in 1786 in the constellation Perseus, and is best seen in late fall to early winter from the Northern Hemisphere. (In the Southern Hemisphere, look for it low in the northern sky in the late spring to early summer.) It is both small and dim at magnitude 11.9, so you will need a telescope (the bigger the better) to see it well.

Credit: NASA, ESA and the Hubble Heritage (STScI/AURA)-ESA/Hubble Collaboration; Acknowledgment: A. Fabian (Institute of Astronomy, University of Cambridge, UK)

For more information about Hubble’s observations of Caldwell 24, see:

hubblesite.org/contents/news-releases/2008/news-2008-28.html

hubblesite.org/contents/news-releases/2003/news-2003-14.html

For Hubble's Caldwell catalog site and information on how to find these objects in the night sky, visit:

www.nasa.gov/content/goddard/hubble-s-caldwell-catalog