Scientists gain new visibility into quantum information transfer
Advance holds promise for “wiring” of quantum computers and other systems, and opens new avenues for understanding basic workings of the quantum realm.
Advance holds promise for “wiring” of quantum computers and other systems, and opens new avenues for understanding basic workings of the quantum realm.
Government leaders, social service providers, and leading scholars gathered for the second conference of J-PAL North America’s State and Local Innovation Initiative.
A star-studded lineup helps the Institute celebrate the launch of a new initiative on human and machine intelligence.
MIT biological engineers discover why a promising drug failed in clinical trials.
Automated data science tools developed by MIT and Feature Labs deliver their first AI product.
Timing and speed are both important for making accurate estimates of how an object will travel.
When rotated at a "magic angle," graphene sheets can form an insulator or a superconductor.
New technique is nontoxic to cells, should allow scientists to study neuron function for months or years instead of weeks.
Synthetic biologist hopes to develop treatments for cancer and other diseases.
Multiyear collaboration, led by Professor David Simchi-Levi, will focus on advancing research in machine learning, optimization, and consumer behavior modeling.
Emitted just 180 million years after Big Bang, signal indicates universe was much colder than expected.
CSAIL’s robotic system minimizes dangerous sawing, helps users customize furniture.
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.
Institute-wide effort will study the evolution of jobs in an age of technological advancement.
Microscopic flaws in material structure can lead to stent deformation after implantation.