Zooming in on dark matter

Date:
September 2, 2020
Source:
Durham University
Summary:
Cosmologists have zoomed in on the smallest clumps of dark matter
in a virtual universe - which could help us to find the real thing
in space.



FULL STORY ========================================================================== Cosmologists have zoomed in on the smallest clumps of dark matter in a
virtual universe -- which could help us to find the real thing in space.


==========================================================================
An international team of researchers, including Durham University, UK,
used supercomputers in Europe and China to focus on a typical region of
a computer- generated universe.

The zoom they were able to achieve is the equivalent of being able to
see a flea on the surface of the Moon.

This allowed them to make detailed pictures and analyses of hundreds
of virtual dark matter clumps (or haloes) from the very largest to
the tiniest.

Dark matter particles can collide with dark matter anti-particles near
the centre of haloes where, according to some theories, they are converted
into a burst of energetic gamma-ray radiation.

Their findings, published in the journal Nature, could mean that these
very small haloes could be identified in future observations by the
radiation they are thought to give out.



========================================================================== Co-author Professor Carlos Frenk, Ogden Professor of Fundamental Physics
at the Institute for Computational Cosmology, at Durham University,
UK, said: "By zooming in on these relatively tiny dark matter haloes we
can calculate the amount of radiation expected to come from different
sized haloes.

"Most of this radiation would be emitted by dark matter haloes too
small to contain stars and future gamma-ray observatories might be able
to detect these emissions, making these small objects individually or collectively 'visible'.

"This would confirm the hypothesised nature of the dark matter,
which may not be entirely dark after all." Most of the matter in the
universe is dark (apart from the gamma radiation they emit in exceptional circumstances) and completely different in nature from the matter that
makes up stars, planets and people.

The universe is made of approximately 27 per cent dark matter with the
rest largely consisting of the equally mysterious dark energy. Normal
matter, such as planets and stars, makes up a relatively small five per
cent of the universe.



========================================================================== Galaxies formed and grew when gas cooled and condensed at the centre of enormous clumps of this dark matter -- so-called dark matter haloes.

Astronomers can infer the structure of large dark matter haloes from
the properties of the galaxies and gas within them.

The biggest haloes contain huge collections of hundreds of bright
galaxies, called galaxy clusters, weighing a 1,000 trillion times more
than our Sun.

However, scientists have no direct information about smaller dark matter
haloes that are too tiny to contain a galaxy. These can only be studied
by simulating the evolution of the Universe in a large supercomputer.

The smallest are thought to have the same mass as the Earth according
to current popular scientific theories about dark matter that underlie
the new research.

The simulations were carried out using the Cosmology Machine
supercomputer, part of the DiRAC High-Performance Computing facility in
Durham, funded by the Science and Technology Facilities Council (STFC),
and computers at the Chinese Academy of Sciences.

By zooming-in on the virtual universe in such microscopic detail,
the researchers were able to study the structure of dark matter haloes
ranging in mass from that of the Earth to a big galaxy cluster.

Surprisingly, they found that haloes of all sizes have a very similar
internal structure and are extremely dense at the centre, becoming
increasingly spread out, with smaller clumps orbiting in their outer
regions.

The researchers said that without a measure scale it was almost impossible
to tell an image of a dark matter halo of a massive galaxy from one of
a halo with a mass a fraction of the Sun's.

Co-author Professor Simon White, of the Max Planck Institute of
Astrophysics, Germany, said: "We expect that small dark matter haloes
would be extremely numerous, containing a substantial fraction of all the
dark matter in the universe, but they would remain mostly dark throughout cosmic history because stars and galaxies grow only in haloes more than
a million times as massive as the Sun.

"Our research sheds light on these small haloes as we seek to learn
more about what dark matter is and the role it plays in the evolution
of the universe." The research team, led by the National Astronomical Observatories of the Chinese Academy of Sciences, and including Durham University, UK, the Max Planck Institute for Astrophysics, Germany, and
the Center for Astrophysics in Harvard, USA, took five years to develop,
test and carry out their cosmic zoom.

The research was funded by the STFC, the European Research Council,
the Chinese Academy of Sciences, the Max Planck Society and Harvard
University.


========================================================================== Story Source: Materials provided by Durham_University. Note: Content
may be edited for style and length.


========================================================================== Journal Reference:
1. Wang, J., Bose, S., Frenk, C.S. et al. Universal structure of
dark matter
haloes over a mass range of 20 orders of magnitude. Nature, 2020
DOI: 10.1038/s41586-020-2642-9 ==========================================================================

Link to news story: https://www.sciencedaily.com/releases/2020/09/200902114451.htm

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