Laboratory for Nuclear Science

Researchers from MIT and elsewhere have compared “snapshots” of pairs of nucleons separated by various distances, and for the first time observed a key transition in the behavior of the strong nuclear force — the glue that binds the building blocks of matter.

The force is strong in neutron stars

Study identifies a transition in the strong nuclear force that illuminates the structure of a neutron star’s core.

February 26, 2020

Aron Bernstein in 2015, on the fire tower at the top of Mt. Chocorua in New Hampshire

Aron Bernstein, professor emeritus of physics, dies at 88

Bernstein was a member of the Hadronic Physics Group in the Laboratory for Nuclear Science, and a longtime anti-nuclear weapons activist.

February 3, 2020

A map of gamma ray emissions throughout the Milky Way galaxy, based on observations from the Fermi Gamma-ray Space Telescope. The inset depicts the Galactic Center Excess – an unexpected, spherical region of gamma ray emissions at the center of our galaxy, of unknown origin.

Is there dark matter at the center of the Milky Way?

A new analysis puts dark matter back in the game as a possible source of energy excess at the galactic center.

December 10, 2019

American Physical Society honorees (left to right): Richard Milner and Pablo Jarillo-Herrero, professors of physics, and James Collins, professor of biological engineering.

American Physical Society honors three MIT professors for physics research

James Collins, Pablo Jarillo-Herrero, and Richard Milner have won top prizes for their work.

October 24, 2019

Four MIT faculty have been named 2019 American Physics Society Fellows: (left to right) Matthew Evans, Joseph Formaggio, Markus Klute, and Anne White.

Four from MIT named American Physical Society Fellows for 2019

Matthew Evans, Joseph Formaggio, Markus Klute, and Anne White are named MIT’s newest APS fellows for their contributions to physics.

September 20, 2019

KATRIN’s spectrometer, shown here, precisely measures the energy of electrons emitted in the decay of tritium, which has helped scientists come closer to pinning down the mass of the ghost-like neutrino.

3Q: Scientists shave estimate of neutrino’s mass in half

Joseph Formaggio explains the discovery that the ghostly particle must be no more than 1 electronvolt, half as massive as previously thought.

September 16, 2019

A new experiment designed by MIT physicists may help to pin down the rate at which huge, massive stars produce oxygen in the universe.

Physicists design an experiment to pin down the origin of the elements

With help from next-generation particle accelerators, the approach may nail down the rate of oxygen production in the universe.

August 20, 2019

Artificial intelligence interfaced with the Large Hadron Collider can lead to higher precision in data analysis, which can improve measurements of fundamental physics properties and potentially lead to new discoveries.

Boosting computing power for the future of particle physics

Prototype machine-learning technology co-developed by MIT scientists speeds processing by up to 175 times over traditional methods.

August 19, 2019

Associate professor Tracy Slatyer focuses on searching through telescope data for signals of mysterious phenomena such as dark matter, the invisible stuff that makes up more than 80 percent of the matter in the universe but has only been detected through its gravitational pull. In her teaching, she seeks to draw out and support a new and diverse crop of junior scientists.

Data-mining for dark matter

Tracy Slatyer hunts through astrophysical data for clues to the invisible universe.

August 15, 2019

Daniel Freedman wins Special Breakthrough Prize in Fundamental Physics

MIT professor emeritus will share $3 million prize with Sergio Ferrara and Peter van Nieuwenhuizen for discovery of supergravity.

August 6, 2019

MIT physicists find a way to relate hundreds of thousands of particle collisions, similar to a social network.

Seeking new physics, scientists borrow from social networks

Technique can spot anomalous particle smashups that may point to phenomena beyond the Standard Model.

July 25, 2019

Clockwise from top left: William Detmold, Semyon Dyatlov, Mary Gehring, David McGee, Ankur Moitra, Matthew Shoulders, Tracy Slatyer, and Michael Williams.

Meet the 2019 tenured professors in the School of Science

Eight faculty members are granted tenure in five science departments.

July 10, 2019

An artistic impression depicts ultra-quantum matter: from the cold topological matter (blue) to hot, strongly correlated metal (red).

Ultra-Quantum Matter research gets $8 million boost

MIT’s Senthil Todadri and Xiao-Gang Wen will study highly entangled quantum matter in a collaboration supported by the Simons Foundation.

May 29, 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

MIT physicists have calculated the pressure distribution inside a proton for the first time. They found the proton’s high-pressure core pushes out, while the surrounding region pushes inward.

Physicists calculate proton’s pressure distribution for first time

The particle’s core withstands pressures higher than those inside a neutron star, according to a new study.

February 22, 2019

MIT News | Massachusetts Institute of Technology

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