Scientists confounded by new findings on universe's mysterious dark
matter
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 [September 12, 2020]
By Will Dunham
WASHINGTON (Reuters) - Dark matter,
mysterious invisible stuff that makes up most of the mass of galaxies
including our own Milky Way, is confounding scientists again, with new
observations of distant galaxies conflicting with the current
understanding of its nature.
Research published this week revealed an unexpected discrepancy between
observations of dark matter concentrations in three massive clusters of
galaxies encompassing trillions of stars and theoretical computer
simulations of how dark matter should be distributed.
"Either there is a missing ingredient in the simulations or we have made
a fundamental incorrect assumption about the nature of dark matter,"
Yale University astrophysicist Priyamvada Natarajan, a co-author of the
study published in the journal Science, said on Friday.
Dark matter is the invisible glue that holds stars together inside a
galaxy. It also creates an invisible scaffold that enables galaxies to
form clusters. But it has very peculiar properties. It does not emit,
absorb or reflect light and does not interact with any known particles.
The bulk of the matter in the universe, about 96%, is thought to be dark
matter, with ordinary matter - the visible stuff that makes up stars,
planets and people - a mere 4%.
Dark matter's presence is known only through its gravitational pull on
visible matter in space. It differs from the similarly enigmatic and
unseen dark energy, which is considered a property of space and is
driving the universe's accelerated expansion. Dark energy is repulsive.
Dark matter attracts through gravity.
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An undated NASA/ESA Hubble Space Telescope image shows the massive
galaxy cluster MACSJ 1206. NASA/ESA/G. Caminha (University of
Groningen), M. Meneghetti (Observatory of Astrophysics and Space
Science of Bologna), P. Natarajan (Yale University)/The CLASH team
and M. Kornmesser/ESA/Hubble/Handout via REUTERS
The new study involved observations from the Hubble Space Telescope
and the European Southern Observatory's Very Large Telescope in
Chile.
When the light from distant sources like faraway galaxies travels
through matter such as another galaxy or a cluster of them, the
light is deflected and bends - a phenomenon called "gravitational
lensing," said astrophysicist and study lead author Massimo
Meneghetti of the Observatory of Astrophysics and Space Science in
Bologna and National Institute for Astrophysics in Italy.
The new observations showed that gravitational lensing effects
produced by galaxies residing inside the huge galaxy clusters were
far stronger than current dark matter theory envisioned, suggesting
an unexpectedly large concentration of dark matter in these
galaxies.
"This is quite surprising," Meneghetti said.
(Reporting by Will Dunham; Editing by Sandra Maler)
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