Dark Matter

Roughly 80 percent of the mass of the universe appears to be dark matter: an invisible material that seems to interact with ordinary matter only through gravity, without emitting light or energy. Scientists cannot detect dark matter directly and don't yet know what it's made of, but they track its influence based on the motions of stars and galaxies. The presence of dark matter is necessary to explain the universe's current structure.

Related Topics: The Big Bang Theory, Black Holes, The Theory of Relativity in Space, Gravitational Waves

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black circle surrounded by swirling material

Black hole 'superradiance' phenomenon may aid quest for dark matter

By Paul Sutter published

Scientists think that when dark photons collect around black holes, they can get trapped and boosted to high energies, where they might transform into other particles (or even just normal photons).

A NASA graphic depicting a galaxy with a red half-circle superimposed over it to represent the mass of dark matter believed to be found there.

The dark matter hypothesis isn't perfect, but the alternatives are worse

By Paul Sutter published

It's true that the dark matter hypothesis has its shortcomings — and, of course, we haven't found any dark matter particles yet. But the truth is that the alternatives are much worse.

artist depiction of dark planet

Planets made of dark matter may have blown up, and we could see them

By Paul Sutter published

A new hypothesis proposes that a large fraction of dark matter may be bound up inside tight balls the size of Neptune — so-called dark matter planets.

An artist's depiction of a galaxy.

Dark matter from 12 billion years ago detected for the 1st time

By Robert Lea published

Using a cosmic relic from the universe's earliest moments researchers have made the earliest detection of a mysterious form of matter that makes up 85% of the universe's mass.

The barred spiral galaxy UGC 12158.

Dark matter: Our review suggests it's time to ditch it in favor of a new theory of gravity

By Indranil Banik published

Observations across a vast range of scales are much better explained in an alternative theory of gravity requiring no invisible matter.

A view from below the LZ Outer Detector which is used to rule out particles that could mimic dark matter signals.

World's most sensitive dark matter detector delivers 1st results

By Robert Lea published

The LUX-ZEPLIN experiment has delivered its first results which show it to be the most sensitive dark matter detector to date.

A ring of dark matter (seen by the Hubble Space Telescope in false color), its location inferred from its gravity, around the galaxy cluster ZwCl0024+1652, which is 5 billion light years away.

Could the Large Hadron Collider discover dark matter?

By Keith Cooper published

With the switching back on after a three-year hiatus, CERN's Large Hadron Collider turns its sights toward shedding light on the mysterious dark matter.

The galaxy cluster Abell 520, with suspected dark matter highlighted in blue.

Dark matter: should we be so sure it exists? Here's how philosophy can help.

By Antonis Antoniou published

More than 50 years since astronomers first proposed "dark matter," we have no idea what it is and nobody has directly seen it or produced it in the lab.

The Large Hadron Collider restarted after a three-year shutdown on April 22, 2022.

Large Hadron Collider hits world record proton acceleration

By Chelsea Gohd published

The newly-upgraded Large Hadron Collider just broke a world record with its proton beams.

Dark matter is invisible to scientists' current instruments.

Is the origin of dark matter gravity itself?

By Paul Sutter published

Did the graviton, the quantum mechanical force carrier of gravity, flood the cosmos with dark matter before normal matter even had a chance to get started?

If the universe has a twin and on that twin time runs backward, then scientists could explain dark matter.

Our universe may have a twin that runs backward in time

By Paul Sutter published

A mirror universe that runs backward in time sprouted up before the Big Bang.

An artist's representation of a supermassive black hole.

Could the secret of supermassive black holes lie in ultralight dark matter?

By Stefanie Waldek published

Though scientists know there's a supermassive black hole at the center of most galaxies, they can't explain how the gravitational giants formed.

A composite image of the Bullet Cluster, a much-studied pair of galaxy clusters that have collided head on. One has passed through the other, like a bullet traveling through an apple, and is thought to show clear signs of dark matter (blue) separated from hot gases (pink).

In the hunt for dark matter, are axions our best bet?

By Chelsea Gohd published

Scientists investigating the true identity of dark matter are finding new evidence to support one leading candidate: axions.

The eight toroid magnets of the ATLAS detector at CERN.

CERN pauses future research collaboration with Russia at Ukrainian scientists' request

By Tereza Pultarova published

CERN will not enter new cooperations with Russian scientific institutions following a request of Ukraine's scientists to halt partnerships with Russian science institutions.

A data visualization of particle collisions at the LHC at CERN.

The Large Hadron Collider will explore the cutting edge of physics after 3-year shutdown

By Chelsea Gohd published

Scientists are gearing up to once more push the boundaries of the cutting edge of particle physics with the reopening of the Large Hadron Collider (LHC) at CERN after a three-year shutdown.

Computer simulations showed large galaxies may steal dark matter from smaller galaxies when they collide. The close-up views reveal two galaxies lacking dark matter, compared to the brighter regions in the image.

Cosmic robbery: New study explains how smaller galaxies lose their dark matter

By Samantha Mathewson published

Large galaxies may steal dark matter from smaller galaxies they nearly collide with, new research suggests.

Dark matter is distributed in the universe in a net-like pattern

What is dark matter?

By Nola Taylor Tillman published

Reference Roughly 80% of the mass of the universe is made up of dark matter, a material that scientists cannot directly observe. So why do scientists think it dominates?

An artist's conception of stellar streams orbiting the Milky Way.

Streams of stars orbiting the Milky Way shed light on galaxy’s dark matter

By Samantha Mathewson published

Stellar groupings orbiting the outskirts of the Milky Way shed new light on the elusive dark matter surrounding our galaxy.

An artist's impression of dark matter in the beginning of the universe.

We may finally be able to test one of Stephen Hawking's most far-out ideas

By Paul Sutter published

The recently launched James Webb Telescope should help determine if dark matter is made up of primordial black holes.

Observations of the diffuse galaxy AGC 114905 suggest the galaxy has no dark matter. The finding defies theories.

This weird galaxy is missing all of its dark matter and scientists can't explain it

By Tereza Pultarova published

Astronomers wonder what holds together a distant galaxy that appears to contain no trace of dark matter.