A passionate advocate for open data
Senior Radha Mastandrea analyzes data from CERN in search of more information about the universe’s fundamental particles.
Senior Radha Mastandrea analyzes data from CERN in search of more information about the universe’s fundamental particles.
Professors Daniel Harlow, Aram Harrow, Hong Liu, and Jesse Thaler among the first recipients of new honor for advances in quantum understanding.
Seeing Higgs boson decay required “magic-eye” focus; may help physicists understand why the universe has mass.
The positively charged particles may have an outsize influence on the properties of neutron stars and other neutron-rich objects.
Proposal for powerful particle collider gets National Academies’ go-ahead.
Most thorough test to date finds no Lorentz violation in high-energy neutrinos.
The “ghostly particle” is confirmed to have originated from a blazar, nearly 4 billion light years from Earth.
Laboratory for Nuclear Science project selected to explore machine learning for lattice quantum chromodynamics.
Research from the Qweak experiment provides a precision measurement of the proton’s weak charge. narrows the search for new physics.
Assistant professor of physics and Laboratory for Nuclear Science researcher recognized for major contributions to high energy and nuclear physics.
Seven staff members honored for their outstanding contributions to the MIT community.
Symposium explores how novel ideas and experiments are advancing many areas of theoretical physics in newly interconnected ways.
Data could shed light on why the universe has more matter than antimatter.
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.