Dark matter is not made up of primordial black holes smaller than a tenth of a millimetre, say scientists who have put the theory put forward by the late Stephen Hawking to its most rigorous test to date.
About 85 per cent of the matter in the universe is believed to be made up of dark matter. Its gravitational force prevents stars in our Milky Way from flying apart.
However, attempts to detect such dark matter particles using underground experiments, or accelerator experiments including the world’s largest accelerator, the Large Hadron Collider, have failed so far, according to the study published in the journal Nature Astronomy. This has led scientists to consider Hawking’s 1974 theory of the existence of primordial black holes, born shortly after the Big Bang, and his speculation that they could make up a large fraction of the elusive dark matter scientists are trying to discover.
Researchers led by Kavli Institute for the Physics and Mathematics of the Universe in Japan used the gravitational lensing effect to look for primordial black holes between Earth and the Andromeda galaxy.
Gravitational lensing, an effect first suggested by Albert Einstein, manifests itself as the bending of light rays coming from a distant object such as a star due to the gravitational effect of an intervening massive object such as a primordial black hole. In extreme cases, such light bending causes the background star to appear much brighter than it originally is.
However, gravitational lensing effects are very rare events because it requires a star in the Andromeda galaxy, a primordial black hole acting as the gravitational lens, and an observer on Earth to be exactly in line with one another.
In order to maximise the chances of capturing an event, the researchers used the Hyper Suprime-Cam digital camera on the Subaru telescope in Hawaii, which can capture the whole image of the Andromeda galaxy in one shot. Taking into account how fast primordial black holes are expected to move in interstellar space, the team took multiple images to be able to catch the flicker of a star as it brightens for a period of a few minutes to hours due to gravitational lensing.
From 190 consecutive images of the Andromeda galaxy taken over seven hours during one clear night, the team scoured the data for potential gravitational lensing events.
If dark matter consists of primordial black holes of a given mass, in this case masses lighter than the Moon, the researchers expected to find about 1,000 events. However, after careful analyses, they could only identify one case. (PTI)
