NASA, ESA, and E. Tollerud (STScI)
NASA's Hubble Space Telescope has captured the glow of new stars in these small, ancient galaxies. Pisces A is on the left and Pisces B is on the right. Astronomers estimate that less than 100 million years ago both galaxies doubled
their star-formation rate. An analysis of the stars' colors reveals that the galaxies contain about 20 to 30 bright blue stars. The blue color is a sign they are young, less than 100 million years old. Each galaxy contains about 10 million stars. In the image of Pisces A, at left, the bright object at the top of the image is a
distant background galaxy. Other distant background galaxies are visible as bright dots.
In the image of Pisces B, at right, the bright object with the diffraction spikes
below left of center is a foreground star in our Milky Way galaxy. Several distant
background galaxies are also visible. Hubble observations suggest that Pisces A and Pisces B should have produced
the bulk of their stars long ago. But the puny galaxies dwelled for billions of years in the Local Void, a region of the universe sparsely populated with galaxies. Now the galaxies have moved into a region packed with galaxies and intergalactic gas.
This dense environment is triggering star birth.
Pisces A is roughly 19 million light-years away and Pisces B about 30 million light-years away.
The image of Pisces A was taken on Oct. 30, 2014, by Hubble's Advanced Camera for Surveys. The image of Pisces B was taken on Nov. 8, 2014, by
Hubble's Advanced Camera for Surveys.
The science team consists of Erik J. Tollerud, Space Telescope Science Institute (STScI), Baltimore, Maryland; Marla C. Geha, Yale University, New Haven,
Connecticut; Jana Grcevich, American Museum of Natural History, New York,
New York; Mary E. Putman, Columbia University, New York, New York; Daniel R.
Weisz, University of Washington, Seattle; and Andrew E. Dolphin, Raytheon Co., Tucson, Arizona.