Trending

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

Latest Updates

dark matter

Exotic 'Fuzzy' Dark Matter May Have Created Giant Filaments Across the Early Universe

By Adam Mann

Simulations help distinguish a cosmos containing fuzzy dark matter from one without it.

An artist's illustration of the cosmology and exoplanet research honored by the 2019 Nobel Prize in physics, directed toward understanding our place in the universe.

This Year's Nobel Prize in Physics Mixes 2 Research Fields — And Politics

By Meghan Bartels

The Nobel Prize in physics this year has gone to two very different research threads — and danced around some big societal issues, even as they celebrate distinguished work.

When the universe was very young, almost all of the antimatter disappeared. And physicists don't know why.

A Strange New Higgs Particle May Have Stolen the Antimatter from Our Universe

By Paul Sutter

Physicists have proposed that a trio of particles called Higgs bosons could be responsible for the mysterious vanishing act of antimatter in the universe.

illustration of dark matter web

Dark 'Half-Magnets' from the Sun Could Be Streaming Through Us Every Day

By Yasemin Saplakoglu

Two theoretical physicists propose a novel idea to find dark matter — and it might actually be testable.

If the universe has a fifth force, dark photons may be its glue.

Are Dark Photons the Secret 'Fifth Force' Holding Our Universe Together?

By Paul Sutter

Physicists on the hunt for the invisible hand that shapes our universe and the galaxies within it have turned their gaze to the dark side.

The atom interferometer tested whether there were extra forces acting on an atom.

Dark Energy Experiment in a London Basement Shows No Traces of Mysterious 'Fifth Force'

By Passant Rabie

An experiment to seek out dark energy, or the so-called "fifth force," has come up empty-handed, casting doubt over some theories related to the mysterious cosmic matter.

Data gathered by the Hubble Space Telescope informs a map of dark matter.

Dark Matter May Have Existed Before the Big Bang, New Math Suggests

By Meghan Bartels

Cracking the mystery of dark matter is one of the most frustrating quests of physics.

A ghostly ring of dark matter floating in the galaxy cluster ZwCl0024+1652, one of the strongest pieces of evidence to date for the existence of dark matter. Astronomers think the dark-matter ring was produced from a collision between two gigantic clusters.

Dark Matter Hasn't Killed Anybody Yet — and That Tells Us Something

By Mike Wall

Nobody has stumbled into an emergency room with an inexplicable lightsaber wound, as far as we know — and that tells us something about dark matter, a new study suggests.

Hubble Finds Dark Matter Ring in Galaxy Cluster

What Is Dark Matter?

By Nola Taylor Redd

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?

The International Space Station crew of Expedition 61/62, from left to right: UAE astronaut Hazzaa Ali Almansoori, Russian cosmonaut Oleg Skripochka, and NASA astronaut Jessica Meir.

Astronauts Will Fix Ailing Dark Matter Experiment on Space Station

By Elizabeth Howell

The secrets of the universe are so important that NASA plans spacewalk work to fix a dark matter experiment on the space station, said U.S. astronaut Jessica Meir.

This image from NASA shows a cloud in space (Molecular Cloud Barnard 68, to be precise) that looks a bit like a void, but isn't one. Real voids don't look like much of anything from Earth... because they aren't much of anything.

New Dark Energy Data Emerges from Misshapen, Distorted, Ancient Voids

By Rafi Letzter

There are voids in the universe, and we can't see them properly. But the good news is that astronomers just got much better at not seeing them properly.

Could quasiparticles called magnons unmask a lightweight dark matter particle?

These Odd 'Quasiparticles' Could Finally Unmask Dark Matter

By Paul Sutter

Tiny ripples called magnons could lure even a fleeting, lightweight dark matter particle out of hiding.

The milky way from Earth.

Something Strange Punched a Hole in the Milky Way. But What Exactly Is It?

By Rafi Letzter

We can't see it. It might not be made of normal matter. Our telescopes haven't directly detected it at all. But it sure seems like it's out there.

large hadron collider

The World's Largest Atom Smasher Could Be Tweaked to Hunt 'Dark World' Particles

By Stephanie Pappas

The Large Hadron Collider should be able to detect these rare particles — if they exist.

dark matter

Is Dark Matter Fuzzy?

By Mara Johnson-Groh

These particles would be much tinier than electrons.

ESA's Cosmic Vision 2015-2025 Plan is designed to give us new understanding and new views of the Universe.

This Single Mission Could Solve 2 of the Biggest Mysteries of the Universe

By Paul Sutter

Here's how the biggest thing in the universe could reveal secrets of the smallest things.

30,000-light‐year-wide region

Supermassive Black Holes Likely Born in 'Halos' of Dark Matter

By Mike Wall

We now have a better idea of how big black holes were born in the early universe, a new study reports.

High mountain peaks glowing in the moonlight.

A Mirror Image of Our Universe May Have Existed Before the Big Bang

By Erik Vance

Before the Big Bang, time may have run in reverse.

Conceptual art showing a neutrino.

Why Physicists Are Hunting the Strangest of the Ghost Particles

By Paul Sutter

These tiny subatomic particles, showering down from the depths of space, continue to surprise (and annoy) physicists chasing them.

In a simulation, dark matter flowed away from the center of a galaxy as new stars formed. Real data about that galaxy, on the right, closely matches the simulation.

Dark Matter Behaves Differently in Dying Galaxies

By Rafi Letzter

Astronomers barely know anything about dark matter, but now they know this: It behaves differently in old, dying galaxies than in new, star-forming ones.