Hunt for Elusive Dark Matter Poised for Breakthrough as Powerful Tools Enter the Fray

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Hunt for Elusive Dark Matter Poised for Breakthrough as Powerful Tools Enter the Fray

Dark matter, making up about 83 percent of the total matter in the universe, plays a crucial role in the evolution of our cosmos. But as it doesn’t interact with light and can only be seen through the gravitational influence it has on light and other matter, its properties remain an enigma.

Creating a simulated universe has helped a team of scientists reveal what could be clumps of dark matter surrounding galaxies, suggesting that future experiments with powerful telescopes might be beneficial in unveiling the mysteries surrounding dark matter.

The results of the collaborative new study, “Universal structure of dark matter haloes over a mass range of 20 orders of magnitude”, were published in the journal Nature on 2 September.

The team of scientists from the Harvard & Smithsonian Center for Astrophysics, Cambridge, Institute for Computational Cosmology of Durham University, the UK, Max-Planck Institute in Germany and Key Laboratory for Computational Astrophysics of the Chinese Academy of Sciences ran a detailed simulation of dark matter. The accuracy of the experiment hinged on the assumptions made about the substance. In this case, the team assumed dark matter consists of weakly interacting massive particles (WIMPs) with a mass about 100 times that of a proton.

Hunt for Elusive Dark Matter Poised for Breakthrough as Powerful Tools Enter the Fray

SDP.81 galaxy einstein ring with dark matter galaxy visible as a small white dot

While computer simulations of WIMP dark matter have been carried out previously, the recent one offered exceptionally high resolution, simulating features on a scale ranging across thirty orders of magnitude.

According to the study, dark matter formed in halos around galaxies, as observed previously, with the halos also developing at all mass scales, from small, planet-mass halos to huge halos formed around clusters of galaxies.

Hunt for Elusive Dark Matter Poised for Breakthrough as Powerful Tools Enter the Fray

Composite image showing the galaxy cluster 1E 0657-56, better known as bullet cluster

These halos are most dense toward their center, becoming more diffuse at their edges with the fact that this occurs at all scales making it an explicit feature of dark matter, says the study.

The small scale halos, albeit too miniscule to be detected through their gravitational influence on light, could potentially shed light on how dark matter interacts with itself.

Elusive Dark Matter

Dark matter, a substance making up the majority of matter in the universe, is shrouded in mystery, as it hasn’t been directly observed, albeit evidence of it is seen in the structure and cluster of galaxies.

Comprising around 83 percent of all matter, its properties are as yet unknown by science.

There have been diverse theories pertaining to dark matter. Some models include the possibility that primordial black holes, formed after the Big Bang, could be a form of dark matter. Others suggest that different particles, like axions, could be dark matter.

Hunt for Elusive Dark Matter Poised for Breakthrough as Powerful Tools Enter the Fray

Black hole illustration by ESO

However, new research suggests that the hunt for it is expanding to new places.

While most observations to track down dark matter resort to high-powered, underground detectors designed to zoom in on weakly interacting massive particles, or WIMPs, suggested by scientists as the most likely dark matter candidates, studies are starting to pinpoint other methods of probing its nature.

The LISA telescope, a space-based gravitational wave observatory building on the success of LISA Pathfinder and LIGO, led by the European Space Agency (ESA) is seen as a tool to potentially achieve a breakthrough.

The LISA mission presents a collaboration of ESA, NASA, and an international consortium of scientists, with the anticipated launch date set for the 2030s.

The telescope could also hunt for a dark matter signal in a novel way, through gravitational waves. These are ripples in space and time sent out by colliding black holes.

Hunt for Elusive Dark Matter Poised for Breakthrough as Powerful Tools Enter the Fray

Merging Galaxies, each with Super massive black holes in the center, in Chandra Deep Field-North

What makes the future use of such powerful tools vital is that, according to experts, time is running out to detect dark matter using the current methods.

In the next decade, direct detectors are anticipated to hit the “neutrino floor,” following which observations will be hidden by neutrinos streaming from space, leaving underground detectors unable to continue their mission.

Experts acknowledge that time and significant funds will be required to bring new detectors online – a feat accomplishable only with the field’s overwhelming support.

 

Sourse: sputniknews.com

Hunt for Elusive Dark Matter Poised for Breakthrough as Powerful Tools Enter the Fray

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