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

Is dark matter made of 'Fermi balls' forged in the Big Bang?

By Paul Sutter

A new theory suggests dark matter may have come from quantum bags that got squished together in the early universe.

quantum entanglement.

Quantum crystal could reveal the identity of dark matter

By Adam Mann

By entangling the motion and quantum properties of a beryllium crystal, scientists have achieved unprecedented precision for measuring electromagnetic waves.

The Crab Nebula as seen by the Hubble Space Telescope and ground-based telescopes in a composite view. The nebula is the aftermath of a brilliant supernova spotted in 1054.

Is there really a 'crisis' in cosmology?

By Paul Sutter

You may have heard about the "cosmology crisis:" Different methods of measuring the age of the universe are giving different results, and cosmologists have no idea why.

Quantum bubbles and multiverses.

10 wild theories about the universe

By How It Works magazine, Andrew May

Why is the universe the way it is? Over the years, scientists have explored many ways to explain the cosmos, leading to some crazy-sounding ideas.

Dark matter particles might interact with each other.

Can we explain dark matter by adding more dimensions to the universe?

By Paul Sutter

Dark matter could be even weirder than anyone thought, say cosmologists who are suggesting this mysterious substance could interact with itself in a higher dimensional universe.

Energy lines

Phantom energy and dark gravity: Explaining the dark side of the universe

By Paul Cockburn, All About Space magazine

Understanding the 'undetectable' cosmos could lead to significant changes in some highly cherished theories about space-time.

ultra-diffuse galaxy NGS 1052-DF2

Hubble Space Telescope finds galaxy with weirdly little dark matter

By Rahul Rao

Astronomers may not know what dark matter is, but they do know that galaxies are supposed to contain a lot of the shadowy, invisible substance.

A visualization of the dark matter filaments in the cosmic web. Simulation produced by the EAGLE project.

This week on the Space.com forums: Questioning dark matter, exploring space and a last chance to win!

By Mohamed Mohammed

The community ponders about the most important questions in space exploration and interrogates dark matter.

The Dark Energy Camera imaged 10 selected areas of the sky called deep fields. The multiple images of each provided astronomers with a glimpse of distant galaxies and how they are distributed throughout the universe.

Did a dark energy discovery just prove Einstein wrong? Not quite.

By Paul Sutter

The Dark Energy Survey just released its most comprehensive results. But did they really prove Einstein wrong?

Astronomers map dark matter indirectly, via its gravitational pull on other objects.

How to make a universe

By Paul Sutter

If you'd like to "bake" a universe, you need two essential ingredients and one optional ingredient.

An artist's impression of a gaseous exoplanet

Dark matter could be destroying itself inside the bellies of exoplanets

By Adam Mann

Researchers propose learning more about dark matter by looking for its effects inside exoplanets.

Dark matter in the center of the galaxy

Dark matter 'annihilation' may be causing the Milky Way's center to glow

By Mara Johnson-Groh

A new study suggests that annihilating dark matter particles may explain the Milky Way center's mysterious glow.

a black hole

Dark matter could be made of black holes from the beginning of time

By Tom Metcalfe

Evidence of collisions between black holes and neutron stars suggests dark matter might consist of concentrations of primordial black holes.

The radio jellyfish is more than 1 million light-years wide.

Astronomers see a ghostly 'radio jellyfish' rise from the dead in the southern sky

By Brandon Specktor

Astronomers discovered a radio structure that looks like a gigantic jellyfish, though it only glows in certain wavelengths.

"The Disordered Cosmos" by Chanda Prescod-Weinstein

In 'The Disordered Cosmos,' a physicist explores how physics and society intersect

By Meghan Bartels

Theoretical physics is supposed to be about pure, crisp ideas. But physics is done by humans, and human society brings messiness to any endeavor.

"The Disordered Cosmos" by Chanda Prescod-Weinstein

Book excerpt: 'The Disordered Cosmos'

By Chanda Prescod-Weinstein

In theoretical physics, as in all human endeavors, identity matters.

The galaxy cluster Abell 383 (at the center of this image) is so massive that it bends the light from objects behind it, acting as a cosmic magnifying glass.

The search for dark matter gets a speed boost from quantum technology

By Benjamin Brubaker

Nearly a century after dark matter was first proposed to explain the motion of galaxy clusters, physicists still have no idea what it’s made of.

The spiral galaxy NGC 5585, which is nestled on the tail of the Great Bear in the constellation of Ursa Major, is one of many that have revealed the presence of an invisible substance called dark matter.

Scientists narrow down the 'weight' of dark matter trillions of trillions of times

By Tom Metcalfe

Scientists are finally figuring out how much dark matter — the almost imperceptible material said to tug on everything, yet emit no light — really weighs.

Researchers used pulsars shown in the inset to calculate dark matter's affect on how stars move within the Milky Way.

Scientists are getting closer in race to find gravitational wave background and dark matter

By Charles Q. Choi

Astronomers may be getting closer to discovering as-yet hidden cosmic secrets, such as the nature of dark matter and the presence of widespread distortions in space-time.

This graphic shows a map of the universe's expansion rates in different directions, estimated in a recent study by Konstantinos Migkas and collaborators.

Is there more than one dark energy?

By Paul Sutter

What if there is more than one cosmological agent for dark energy? This mixture would have strange effects in our universe, making it potentially detectable with upcoming surveys.