Propelling atomically layered magnets toward green computers
MIT scientists have tackled key obstacles to bringing 2D magnetic materials into practical use, setting the stage for the next generation of energy-efficient computers.
MIT scientists have tackled key obstacles to bringing 2D magnetic materials into practical use, setting the stage for the next generation of energy-efficient computers.
Luqiao Liu utilizes a quantum property known as electron spin to build low-power, high-performance computer memories and programmable computer chips.
Over 50 years at MIT, Dresselhaus made lasting contributions to materials science within the research group of longtime collaborator and wife, Mildred Dresselhaus.
Reversible system can flip the magnetic orientation of particles with a small voltage; could lead to faster data storage and smaller sensors.
Jagadeesh Moodera and colleagues to investigate interface-driven phenomena in quantum materials in the quest for energy-efficient quantum electronics.
Associate Professor Joseph Checkelsky wins $1.7 million Emergent Phenomena in Quantum Systems Initiative grant to pursue search for new crystalline materials.
Newly synthesized compound of iron and tin atoms in 1-to-1 ratio displays unique behavior.
Circuit design offers a path to “spintronic” devices that use little electricity and generate practically no heat.
MIT researchers discover a material that changes electrical resistance only when a magnetic field is applied at a narrowly confined angle.
MIT researchers show how to make and drive nanoscale magnetic quasi-particles known as skyrmions for spintronic memory devices.
Innovative approach to controlling magnetism could lead to next-generation memory and logic devices.
Summer Scholar Stephanie Bauman interns in Luqiao Liu lab synthesizing and testing manganese gallium samples for spintronic applications.
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 have discovered a new way to tune electronic energy levels in some 2-D materials.