Laboratory for Nuclear Science

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

This illustration shows a multi-jet event recorded by the CMS detector at the Large Hadron Collider.

Center for Theoretical Physics professors earn DOE Quantum Information Science Awards

Professors Daniel Harlow, Aram Harrow, Hong Liu, and Jesse Thaler among the first recipients of new honor for advances in quantum understanding.

October 12, 2018

A candidate event display for the production of a Higgs boson decaying to two b-quarks (blue cones), in association with a W boson decaying to a muon (red) and a neutrino. The neutrino leaves the detector unseen, and is reconstructed through the missing transverse energy (dashed line).

3 Questions: Philip Harris on first observation of long-predicted Higgs boson decay

Seeing Higgs boson decay required “magic-eye” focus; may help physicists understand why the universe has mass.

August 28, 2018

MIT researchers used archived data from the CLAS detector to study interactions in neutron-rich atoms.

In neutron stars, protons may do the heavy lifting

The positively charged particles may have an outsize influence on the properties of neutron stars and other neutron-rich objects.

August 13, 2018

In an Electron-Ion Collider, a beam of electrons (e-) would scatter off a beam of protons or atomic nuclei, generating virtual photons (λ) — particles of light that penetrate the proton or nucleus to tease out the structure of the quarks and gluons within.

3Q: Richard Milner on a new U.S. particle accelerator

Proposal for powerful particle collider gets National Academies’ go-ahead.

July 24, 2018

New study again proves Einstein right

Most thorough test to date finds no Lorentz violation in high-energy neutrinos.

July 16, 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

The image is an artist’s visualization of a nucleus as studied in numerical simulations, created using DeepArt neural network visualization software.

Project to elucidate the structure of atomic nuclei at the femtoscale

Laboratory for Nuclear Science project selected to explore machine learning for lattice quantum chromodynamics.

July 6, 2018

The Karlsruhe Tritium Neutrino Experiment, or KATRIN, is a massive detector based in the town of Karlsruhe, Germany, that has been designed to measure a neutrino’s mass with far greater precision than existing experiments.

3 Questions: Pinning down a neutrino’s mass

KATRIN experiment investigates the ghostly particle.

June 8, 2018

In the QTor magnetic spectrometer, a magnet separates high-energy electrons, which are elastically scattered from protons.

Understanding the proton's weak side

Research from the Qweak experiment provides a precision measurement of the proton’s weak charge. narrows the search for new physics.

May 10, 2018

Or Hen receives the Guido Altarelli Award.

Or Hen receives 2018 Guido Altarelli Award

Assistant professor of physics and Laboratory for Nuclear Science researcher recognized for major contributions to high energy and nuclear physics.

April 18, 2018

School of Science announces Infinite Mile Awards for 2018

Seven staff members honored for their outstanding contributions to the MIT community.

April 3, 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

Bottom view of the 19 CUORE towers installed in the cryostat.

Scientists report first results from CUORE neutrino experiment

Data could shed light on why the universe has more matter than antimatter.

March 26, 2018

Vector-boson scattering processes are characterized by two high-energetic jets in the forward regions of the detector. The Figure shows a significant excess of events in the distribution of the mass of the two tagging jets in yellow, labelled as EW WW.

MIT physicists observe electroweak production of same-sign W boson pairs

With the aid of the Compact Muon Solenid detector at the Large Hadron Collider, a Laboratory for Nuclear Science-led group seeks to further understand the building blocks of matter.

February 27, 2018

MIT News | Massachusetts Institute of Technology

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