Entanglement bonanza
Relatively simple quantum computers could be much more powerful than previously realized.
Relatively simple quantum computers could be much more powerful than previously realized.
Data from New Horizons mission suggest a water-ice ocean lies beneath Pluto’s heart-shaped basin.
Smart insulin-pen cap lets patients and doctors track dosage data to better manage treatment.
Picower Neuroscientist recognized for her work on emotional circuitry of the brain.
New catalyst provides design principles for producing fuels from carbon dioxide emissions.
Richard Alley delivers 2016 Carlson Lecture on the physics of glaciers and how ice sheets capture a history of the world’s climate.
Grad student Libby Tolman melds the elegance of theoretical physics with practical applications of nuclear science.
Encapsulating molecular components in artificial membranes offers more flexibility in designing circuits.
Chemists discover structure of bacterial enzyme that generates useful polymers.
Study finds a complex series of molecular, cellular, circuit and network-level changes contribute to the progression of Alzheimer's.
Nanoscience pioneer and Institute Professor Millie Dresselhaus accepted the medal in Paris on behalf of the Institute.
Immunization strategy could prevent gastrointestinal disease.
Awards to recent alumni honor the memory of Carl-Gustaf Rossby, a pioneer in earth and atmospheric sciences.
Technique may enable large-scale atom arrays for quantum computing.
Measuring DNA repair capability can reveal tumors’ sensitivity to drugs.