Probing microscopic wiggles in squishy materials
Technique could help improve design of soft materials to withstand jostling during transport or settling due to gravity.
Technique could help improve design of soft materials to withstand jostling during transport or settling due to gravity.
MISTI Global Seed Funds program has delivered $22 million to faculty since 2008.
A multidecade study shows economics increasingly overlaps with other disciplines, and has become more empirical in nature.
A new study may explain why people with autism are often highly sensitive to light and noise.
Researchers discover that no magic is required to explain why deep networks generalize despite going against statistical intuition.
Technique may help scientists more accurately map vast underground geologic structures.
Weather’s a problem for autonomous cars. MIT’s new system shows promise by using “ground-penetrating radar” instead of cameras or lasers.
Study identifies a transition in the strong nuclear force that illuminates the structure of a neutron star’s core.
Method with polarized light can create and measure nonsymmetrical states in a layered material.
System ensures hackers eavesdropping on large networks can’t find out who’s communicating and when they’re doing so.
Aerogels for solar devices and windows are more transparent than glass.
Whisk-shaped device absorbs trace contaminants, preserves them in dry state that can be shipped to labs for analysis.
Most materials have a fixed ability to conduct heat, but applying voltage to this thin film changes its thermal properties drastically.
The MIT Libraries and three universities negotiate innovative agreement with the Association for Computing Machinery.
Simple chip powered by quantum dots allows standard microscopes to visualize difficult-to-image biological organisms.