Dark matter

New type of atomic clock keeps time even more precisely

The design, which uses entangled atoms, could help scientists detect dark matter and study gravity’s effect on time.

December 16, 2020

Photo of Chiara Salemi with blue latex gloves pointing at the ABRACADABRA toroid magnet

Pulling the secrets of dark matter out of a hat

Grad student Chiara Salemi and Professor Lindley Winslow use the ABRACADABRA instrument to reveal insights into dark matter.

December 2, 2020

A simulation of early galaxy formation under three dark matter scenarios. In a universe filled with cold dark matter, early galaxies would first form in bright halos (far left). If dark matter is instead warm, galaxies would form first in long, tail-like filaments (center). Fuzzy dark matter would produce similar filaments, though striated (far right), like the strings of a harp.

This is how a “fuzzy” universe may have looked

Scientists simulate early galaxy formation in a universe of dark matter that is ultralight, or “fuzzy,” rather than cold or warm.

October 3, 2019

Illustration of MIT’s new axion detector, in cross-section, designed to simulate an astrophysical magnetar.

Dark matter experiment finds no evidence of axions

In its first run, ABRACADABRA detects no signal of the hypothetical dark matter particle within a specific mass range.

March 29, 2019

Rendering of the gas velocity in a thin slice of 100 kiloparsec thickness (in the viewing direction), centered on the second most massive galaxy cluster in the TNG100 calculation. Where the image is black, the gas is hardly moving, while white regions have velocities that exceed 1,000 kilometers per second. The image contrasts the gas motions in cosmic filaments against the fast chaotic motions tr...

Modeling the universe

MIT's Mark Vogelsberger and an international astrophysics team have created a new model pointing to black holes’ role in galaxy formation.

January 31, 2018

Tracy Slatyer wins Future of Science Award

May 18, 2017

New dark matter experiments prepare to hunt the unknown

In support of three new experiments, MIT's Enectali Figueroa-Feliciano will answer questions about dark matter research in a live Google Hangout on Nov. 20.

November 13, 2014

The starboard truss of the International Space Station while Space Shuttle Endeavour docked with the station. The newly installed Alpha Magnetic Spectrometer (AMS) is visible at center left.

Particle detector finds hints of dark matter in space

Alpha Magnetic Spectrometer detects positrons in cosmic ray flux that hint at dark matter's origin.

September 18, 2014

Screenshot of the Illustris Simulation that shows what the universe looks like 12.2 billion years after the Big Bang.

The universe in a cube

New model, spanning 13 billion years of cosmic evolution, makes important advances.

May 7, 2014

CDMS result covers new ground in search for dark matter

The Cryogenic Dark Matter Experiment has set more stringent limits on light dark matter.

February 28, 2014

Photo shows a prototype device designed by the MIT team to produce a very narrow, high-powered beam of electrons for an experiment called DarkLight. The device was tested at the Jefferson National Accelerator Facility to confirm that it could meet the requirements needed to detect a hypothesized particle based on one theory about the nature of dark matter.

Seeing the dark

New MIT-led experiment could finally shed light on the mysteries of dark matter.

October 25, 2013

3Q: Enectali Figueroa-Feliciano on possible hints of dark matter

MIT physicist explains how new results from an underground experiment add intrigue to the hunt for dark matter.

April 22, 2013

Astronaut Michael Fincke '89 captured this image of his own reflection during a spacewalk. The AMS, already installed on the International Space Station, is just behind him at top left.

Shedding light on the search for dark matter

Physicists and astronaut discuss cosmic ray detector’s findings of possible signs of dark matter.

April 10, 2013

From its vantage point on the International Space Station approximately 260 miles above the Earth, the Alpha Magnetic Spectrometer (AMS) collects data from primordial cosmic rays that traverse the detector.

CERN announces measurement of antimatter excess in space

MIT physicist and AMS spokesman Samuel Ting presents results via webcast.

April 3, 2013

At the center of this infrared image is a massive red galaxy, 9.8 billion light-years from Earth, which acts like a cosmic magnifying glass, distorting the light from an even more distant galaxy. The observations were made with the 10-meter Keck-11 Telescope on Mauna Kea, Hawaii.

Astronomers find a dark matter galaxy far, far away

Discovery could offer clues on the nature of dark matter.

January 19, 2012

MIT News | Massachusetts Institute of Technology

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