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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dark matter map showing magenta fuzzy sections in the center and to the sides of the sky map with a bright arc flowing the through the middle of the sky map.

If dark matter is 'invisible,' how do we know it exists?

By Robert Lea published

Despite making up most of the matter in the universe, dark matter doesn't interact with light. So how do astronomers know it is there?

A new map of the sky, made with observations from the Atacama Cosmology Telescope, showing dark matter. The orange regions show where there is more mass; magenta where there is less. Typical features are hundreds of millions of light-years across.

New dark matter map created with 'cosmic fossil' shows Einstein was right (again)

By Robert Lea published

The mapping of matter in the cosmos helps to confirm Einstein's theory of general relativity and reveals more about mysterious dark matter.

Technicians at a Thales Alenia Space facility in France prep the European Space Agency's Euclid space telescope for its coming sea voyage to its Florida launch site. Euclid is scheduled to launch atop a SpaceX Falcon 9 rocket in July 2023.

Europe preps dark matter-hunting Euclid spacecraft for trip to Florida launch site (photos)

By Andrew Jones published

Europe's newest space telescope is set to cross the ocean ahead of its planned launch atop a SpaceX Falcon 9 rocket this summer.

An illustration of a supermassive black hole ringed with a fiery orange accretion disk ending in a thick ring of black dust

Black holes may be swallowing invisible matter that slows the movement of stars

By Robert Lea published

Scientists watched as two stars slowed in their orbits around black holes, concluding it was the result of "drag" generated by dark matter.

The luminous, hot star Wolf-Rayet 124 (WR 124), which lies about 15,000 light-years from Earth, is prominent at the center of this James Webb Space Telescope composite image, which combines near-infrared and mid-infrared wavelengths of light from Webb's Near-Infrared Camera and Mid-Infrared Instrument. NASA released this image on March 14, 2023.

Exoplanets, dark matter and more: Big discoveries coming from James Webb Space Telescope, astronomers say

By Keith Cooper published

The James Webb Space Telescope (JWST) has dazzled us plenty already, but the best is yet to come from the observatory, mission team members say.

The Milky Way band stretches across the sky above sand dunes.

Arrakhis: The tiny satellite aiming to reveal what dark matter is made of

By Andreea Font published

The European Space Agency (ESA) recently announced a new mission of its science program: a small telescope orbiting the Earth dubbed Arrakhis.

An artist's depiction of the Deep Space Atomic Clock spacecraft.

Sending atomic clocks close to the sun could unlock the secrets of dark matter

By Charles Q. Choi published

Space probes that fly close to the sun may help reveal the nature of dark matter, which makes up about five-sixths of all matter in the universe but remains a mystery.

The Fornax dwarf galaxy, which is one of about 59 known dwarf satellite galaxies of our Milky Way.

Strange arrangement of Milky Way's groupie galaxies may undermine dark matter

By Keith Cooper published

Scientists may have explained the mysterious distribution of small satellite galaxies around our Milky Way that has long puzzled astronomers, but not everyone is in agreement.

This composite image shows the distribution of dark matter, galaxies, and hot gas in the core of the merging galaxy cluster Abell 520, formed from a violent collision of massive galaxy clusters. The blend of blue and green in the center of the image reveals that a clump of dark matter resides near most of the hot gas, where very few galaxies are found.

How much of the universe is dark matter?

By Paul Sutter published

There simply isn't enough normal matter to account for the amount of gravitational force needed to hold the universe together, meaning dark matter must be prevalent.

purpleish gas clouds against starry background

'Fuzzy' dark matter might make stars form in giant 'pancakes'

By Paul Sutter published

A model of exotic dark matter suggests that the first stars may have formed not as individuals, but as tiny pockets embedded in gigantic, pancake-like sheets.

a rock moving to the lower right corner of the image with dark network in background

Earth's atmosphere could be turned into a giant dark-matter detector

By Robert Lea published

Meteor-hunting methods could be adapted to hunt for dark matter, the mysterious substance that makes up around 85% of the universe's matter but remains invisible.

bubble-like blue and orange blob against starry background

1,500 supernovas offer most precise survey of dark energy and dark matter to date

By Robert Lea published

Two decades' worth of observations of supernova explosions and a powerful new analysis tool has provided the most accurate accounting of dark energy and dark matter to date.

six panels show fuzzy galaxies, some warped

Advanced AI discovers a treasure trove of gravitational lenses

By Keith Cooper published

A machine-learning algorithm has helped astronomers discover thousands of gravitational lenses predicted by Einstein.

An artist's conception of dark matter scattered throughout the universe

Dark matter could finally reveal itself through self-interactions

By Paul Sutter published

One hypothesis for the nature of dark matter is that some of it could be self-interacting, meaning the individual particles interact slightly with one another.

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.