New MRI sensor can image activity deep within the brain
Noninvasive measurements of calcium could reveal neurons’ roles in different types of behavior.
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.
Quantum dots can spit out clone-like photons
System that generates coherent single particles of light could help pave the way for quantum information processors or communications.
Achieving greater efficiency for fast data center operations
System better allocates time-sensitive data processing across cores to maintain quick user-response times.
Study of quark speeds finds a solution for a 35-year physics mystery
Number of proton-neutron pairs determine how fast the particles move, results suggest.
Putting data privacy in the hands of users
New platform forces data center servers to only use data in ways that users explicitly approve.
Q&A: Why cities aren’t working for the working class
Professor David Autor’s latest research shows how economic polarization stems from urban job loss.
Lobster’s underbelly is as tough as industrial rubber
Membrane material’s properties could guide design of flexible body armor, new study suggests.
Robots track moving objects with unprecedented precision
System uses RFID tags to home in on targets; could benefit robotic manufacturing, collaborative drones, and other applications.
Climate change makes summer weather stormier yet more stagnant
Study finds rising temperatures feed more energy to thunderstorms, less to general circulation.
![“Having representation from women, especially black women, in the [nuclear science and engineering] department was a huge factor in me wanting to come back,” says PhD candidate Raspberry Simpson.](/sites/default/files/styles/term_page__news_article/public/images/201902/MIT-Raspberry-Simpson-NSE-00_0.jpg?itok=-nQtFNUn)
From summer research program to PhD dissertation
Graduate student Raspberry Simpson’s scientific journey approaches fruition.
Predicting sequence from structure
Researchers have devised a faster, more efficient way to design custom peptides and perturb protein-protein interactions.
Giving keener “electric eyesight” to autonomous vehicles
On-chip system that detects signals at sub-terahertz wavelengths could help steer driverless cars through fog and dust.
Turning desalination waste into a useful resource
Process developed at MIT could turn concentrated brine into useful chemicals, making desalination more efficient.
3Q: Machine learning and climate modeling
As machine learning expands into climate modeling, EAPS Associate Professor Paul O’Gorman answers what that looks like and why it's important now.