Six different galaxies imaged by the Hubble Space Telescope have been magnified by a cosmic effect called gravitational lensing. The images were taken in infrared light by Hubble’s Wide Field Camera 3. Color has been added to highlight details in the galaxies.
A glittering jackpot of ultrabright galaxies bursting with star formation has been revealed in a series of stunning images taken by the Hubble Space Telescope .
The galaxies captured in these images sparkle like jewels of cosmic light. These massive collections of stars are each as much as 10,000 times more luminous than the Milky Way in the infrared range, or 10 trillion to 100 trillion times the brightness of the sun. They are also forming about 10,000 new stars each year, according to a statement from NASA. (By comparison, it is estimated that fewer than 10 stars form in the Milky Way each year.)
Viewers may also notice strange shapes, including rings and arcs of light. Those are mostly the result of a cosmic phenomenon known as gravitational lensing , in which a foreground galaxy acts as a lens, warping and magnifying the light from a more distant galaxy. [Gravitational Lensing Eloquently Described in ‘Hubblecast’ | Video ]
This lensing has magnified the light from these very distant galaxies, giving scientists the opportunity to study in them in much finer detail than would be otherwise possible.
“These ultra-luminous, massive, starburst galaxies are very rare,” James Lowenthal, an astronomy professor at Smith College in Massachusetts and lead researcher on the Hubble survey, said in the statement . “Gravitational lensing magnifies them so that you can see small details that otherwise are unimaginable. We can see features as small as about 100 light-years or less across. We want to understand what’s powering these monsters, and gravitational lensing allows us to study them in greater detail.”
The galaxies’ images include strange features such as arcs, streaks and smeared rings. These unusual features are likely the product of gravitational lensing, but may have been produced by collisions between distant, massive galaxies.
Credit: NASA, ESA, and J. Lowenthal (Smith College)
The birth and death of so many stars generate a lot of new gas and dust, which obscures the galaxies in many wavelengths of light, including visible. But infrared light can penetrate those layers. These galaxies were first identified by the European Space Agency’s Planck satellite , and were subject to further study by other instruments, but the Hubble observations confirmed that gravitational lensing is making them brighter and more visible.
The furious star formation in these galaxies coincides with the “peak of the universe’s star-making boom between 8 billion and 11.5 billion years ago,” according to the statement. Even so, only a few dozen of these star-forming, bright infrared galaxies existed in that period of the early universe, NASA said.
In the nearby universe, researchers have identified so-called ultra-luminous infrared galaxies (ULIRGS), which are also massive, cloaked in dust, and have high rates of star formation. The star formation in those galaxies is “stoked by the merger of two spiral galaxies ,” according to the statement. Such a collision could have brought together large amounts of gas and dust into a relatively small region, creating an environment ripe for star formation.
But it’s not clear if similar galaxy mergers were taking place between 11.5 billion and 8 billion years ago, so scientists aren’t sure if the galaxies seen in this recent Hubble survey are fueled by the same mechanism as the nearby galaxies.
“The early universe was denser, so maybe gas is raining down on the galaxies, or they are fed by some sort of channel or conduit, which we have not figured out yet,” Lowenthal said. “This is what theoreticians struggle with: How do you get all the gas into a galaxy fast enough to make it happen?”
To unlock the mysteries these galaxies may hold, scientists need to know if the strange features that appear in the Hubble images — the curves and arcs of light — are artificial features generated by the lensing effect, or if they are indicative of actual features around the galaxies. The researchers now need to separate artifice from reality to come up with some answers.