3Q: Yet-Ming Chiang on reopening the case of cold fusion
The materials science and engineering professor is part of a multi-institution effort to investigate the possibility of cold fusion in a scientifically rigorous way.
The materials science and engineering professor is part of a multi-institution effort to investigate the possibility of cold fusion in a scientifically rigorous way.
On the cusp of graduation, health sciences and technology doctoral candidate Agata Wiśniowska '11 sustains her decade-plus connection to the MIT Nuclear Reactor Lab.
Research scientist Alessandro Marinoni shows that reversing traditional plasma shaping provides greater stability for fusion reactions.
New method could be useful for building quantum sensors and computers.
Faculty members recognized for excellence via a diverse array of honors, grants, and prizes over the last quarter.
Pioneering materials science and engineering research enables better catalytic converters, miniature explosives detectors, and thin-film microbalances.
High-fidelity simulations by MIT nuclear researchers point the way to optimizing heat transfer in current and next-generation reactors.
Long-haul trucks with electric motors combined with gas-alcohol engines could slash pollution levels and greenhouse gases.
New understanding of heat transfer in boiling water could lead to efficiency improvements in power plants.
Nuclear science and engineering graduate student Miriam Kreher codes to create better models for complex interactions within nuclear reactors.
“Hybrid” cathodes could provide more power for a given weight and volume.
MIT researchers find a new way to make nanoscale measurements of fields in more than one dimension.
Graduate engineering program is No. 1 in the nation; MIT Sloan is No. 3.
In David Rose Lecture, Sun Microsystems co-founder urges bold plans to address global challenges.
Growing material directly onto substrates and recycling chip patterns should enable faster, simpler manufacturing.