Black holes

The Event Horizon Telescope (EHT) is a global network of radio telescopes that work together as one virtual, Earth-sized telescope, with a resolution sharp enough to “see” a black hole’s shadow.

Astronomers capture first image of a black hole

ESO, ALMA, and APEX contribute to paradigm-shifting observations of the gargantuan black hole at the heart of the galaxy Messier 87. (Press release)

April 10, 2019

The Event Horizon Telescope (EHT) — a planet-scale array of eight ground-based radio telescopes forged through international collaboration — was designed to capture images of a black hole. In coordinated press conferences across the globe, EHT researchers revealed that they succeeded, unveiling the first direct visual evidence of the supermassive black hole in the center of Messier 87 and its ...

Working together as a “virtual telescope,” observatories around the world produce first direct images of a black hole

Images reveal supermassive black hole at the heart of the Messier 87 galaxy.

April 10, 2019

LIGO laboratory detection site near Hanford in eastern Washington.

3 Questions: Lisa Barsotti on the new and improved LIGO

“If we are very lucky, we might observe something new … or maybe even something totally unexpected.”

April 1, 2019

This artist's impression shows hot gas orbiting in a disk around a rapidly-spinning black hole. The elongated spot depicts an X-ray-bright region in the disk, which allows the spin of the black hole to be estimated.

X-ray pulse detected near event horizon as black hole devours star

Pulse pattern suggests distant black hole must be spinning at least at 50 percent the speed of light.

January 9, 2019

X-ray echoes, mapped by NASA’s Neutron star Interior Composition Explorer (NICER), revealed changes to the accretion disk and corona of black hole MAXI J1820+070.

Astronomers observe evolution of a black hole as it wolfs down stellar material

Halo of highly energized electrons around the black hole contracts dramatically during feeding frenzy.

January 9, 2019

On Dec. 18, Deutsche Post issued a stamp to honor the research of the Illustris collaboration, a supercomputer simulation of galaxy formation, led at MIT by Mark Vogelsberger, an associate professor of physics in the Kavli Institute for Astrophysics and Space Research.

Stamp of approval

MIT’s Mark Vogelsberger and the Illustris project are honored by Germany's postal service with an official stamp.

December 27, 2018

The twin detectors of LIGO, the Laser Interferometer Gravitational-wave Observatory, are located in Louisiana and Washington. The Livingston detector site, located near Livingston, Louisiana, is pictured here.

LIGO and Virgo announce four new gravitational-wave detections

The observatories are also releasing their first catalog of gravitational-wave events.

December 3, 2018

Radha Mastandrea wants to know what the universe is made of.

A passionate advocate for open data

Senior Radha Mastandrea analyzes data from CERN in search of more information about the universe’s fundamental particles.

October 18, 2018

In this illustration, a neutrino has interacted with a molecule of ice, producing a secondary particle—a muon—that moves at relativistic speed in the ice, leaving a trace of blue light behind it.

3Q: Janet Conrad on the first detection of a neutrino’s cosmic source

The “ghostly particle” is confirmed to have originated from a blazar, nearly 4 billion light years from Earth.

July 13, 2018

Numerical simulation of the last instances of a neutron star and black hole merger, as the neutron star is destroyed by the tidal pull of the black hole (at the center of the disk).

Could gravitational waves reveal how fast our universe is expanding?

Signals from rare black hole-neutron star pairs could pinpoint rate at which universe is growing, researchers say.

July 12, 2018

A snapshot of a simulation showing a binary black hole formed in the center of a dense star cluster.

Dense stellar clusters may foster black hole megamergers

Black holes in these environments could combine repeatedly to form objects bigger than anything a single star could produce.

April 10, 2018

CTP Professors Hong Liu, Jesse Thaler, William Detmold, Daniel Harlow, Tracy Slatyer, and Aram Harrow share a moment during a panel discussion on the future of theoretical physics.

Center for Theoretical Physics celebrates 50 years

Symposium explores how novel ideas and experiments are advancing many areas of theoretical physics in newly interconnected ways.

March 28, 2018

Artist's impression of an inner accretion flow and a jet from a supermassive black hole when it is actively feeding, for example, from a star that it recent tore apart.

Scientists detect radio echoes of a black hole feeding on a star

Signals suggest black hole emits a jet of energy proportional to the stellar material it gobbles up.

March 18, 2018

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

Artist’s conceptions of the most-distant supermassive black hole ever discovered, which is part of a quasar from just 690 million years after the Big Bang. It is surrounded by neutral hydrogen, indicating that it is from the period called the epoch of reionization, when the universe's first light sources turned on.

Scientists observe supermassive black hole in infant universe

Findings present a puzzle as to how such a huge object could have grown so quickly.

December 6, 2017

MIT News | Massachusetts Institute of Technology

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