Dancing electrons solve a longstanding puzzle in the oldest magnetic material
Physicists use extreme infrared laser pulses to reveal frozen electron waves in magnetite.
Physicists use extreme infrared laser pulses to reveal frozen electron waves in magnetite.
Newly synthesized compound of iron and tin atoms in 1-to-1 ratio displays unique behavior.
In 8.02 (Electricity and Magnetism), students explore the practical application of electromagnetic concepts.
MIT researchers discover a material that changes electrical resistance only when a magnetic field is applied at a narrowly confined angle.
Recently discovered phenomenon could provide a way to bypass the limits to Moore’s Law.
Materials researcher is working on the magnetic memory of the future.
Researchers find geomagnetic field intensity is double the long-term historical average.
Enhanced-sensitivity NMR could reveal new clues to how proteins fold.
Findings could lead to a building block for future quantum computers, and a research tool for physics.
Longtime principal investigator at MIT was a pioneer in the field of biomagnetism.
Technique could let a small electrical signal change materials’ electrical, thermal, and optical characteristics.
Technology could provide a way to deliver probes or drugs to cell structures without outside guidance.
New method produces particles that can glow with color-coded light and be manipulated with magnets.
Customized arrays of iron oxide nanoparticles are possible based on their differing responses to alternating magnetic fields, MIT researchers report.