By ESA/HUBBLE OCTOBER 21, 2022
This illustration depicts a phenomenon known as gravitational lensing, which is used by astronomers to study very distant and very faint galaxies. Note that the scale has been greatly exaggerated in this diagram. In reality, the distant galaxy is much further away and much smaller.
Lensing clusters are clusters of elliptical galaxies whose gravity is so strong that they bend the light from the galaxies behind them. This produces distorted, and often multiple images of the background galaxy. But despite this distortion, gravitational lenses allow for greatly improved observations as gravity bends the light’s path towards Hubble, amplifying the light and making otherwise invisible objects observable.
Credit: NASA, ESA & L. Calçada
Light does not always travel in straight lines. As
Einstein predicted in his Theory of General Relativity, massive objects will deform the fabric of space itself. When light passes one of these massive objects, such as a cluster of galaxies, its path is changed slightly.
This effect, called
gravitational lensing, is only visible in rare cases and only the best telescopes can observe the related phenomena.
Gravitational lenses produce different shaped images depending on the shape of the lensing body. If the lens is spherical then the image appears as an Einstein ring (in other words as a ring of light) (top); if the lens is elongated then the image is an Einstein cross (it appears split into four distinct images) (middle), and if the lens is a galaxy cluster, like Abell 2218, then arcs and arclets (banana-shaped images) of light are formed (bottom).
Credit: European Space Agency
Hubble’s sensitivity and high resolution allow it to see
faint and distant gravitational lenses that cannot be detected with ground-based telescopes whose images are blurred by the Earth’s atmosphere. The gravitational lensing results in multiple images of the original galaxy each with a characteristically distorted banana-like shape or even into
rings.
The giant galaxy cluster in the center of this image contains so much dark matter mass that its gravity bends the light of more distant objects. This means that for very distant galaxies in the background, the cluster’s gravitational field acts as a sort of magnifying glass, bending and concentrating the distant object’s light towards Hubble. These gravitational lenses are one tool astronomers can use to extend Hubble’s vision beyond what it would normally be capable of observing. This way some of the very first galaxies in the Universe can be studied by astronomers. The lensing effect can also be used to determine the distribution of matter — both ordinary and dark matter — within the cluster. Credit: NASA, ESA, J. Richard (CRAL) and J.-P. Kneib (LAM), Acknowledgment: Marc Postman (STScI)
Hubble was the first telescope to resolve details within these multiple
banana-shaped arcs. Thanks to its sharp vision, it can reveal the shape and internal structure of the lensed background galaxies directly. In this way one can easily match the different arcs coming from the same background object — be it a galaxy or even a
supernova — by eye.
Gravitational lensing can be used to
‘weigh’ clusters because the amount of lensing depends on the total mass of the cluster. This has substantially improved our understanding of the distribution of the ‘hidden’ dark matter in galaxy clusters and hence in the Universe as a whole. The effect of gravitational lensing also allowed a first step towards
revealing the mystery of the dark energy.
As gravitational lenses function as
magnification glasses it is possible to use them to
study distant galaxies from the early Universe, which otherwise would be impossibly faint to see due to their great distance from Earth.
“When we first observed the galaxy cluster Abell 2218 with Hubble in 1995 we mainly aimed at studying the cluster and its galaxies. But we got a surprise. The images showed dozens and dozens of gravitationally lensed arcs. When we showed these ultrasharp images to our colleagues they could immediately see the importance of using gravitational lensing as a cosmological tool.”
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