Spintronics-Info: the spintronics experts

Spintronics-Info is a news hub and knowledge center born out of keen interest in spintronic technologies.

Spintronics is the new science of computers and memory chips that are based on electron spin rather than (or in addition to) the charge (used in electronics). Spintronics is an exciting field that holds promise to build faster and more efficient computers and other devices.

Recent spintronics News

The US NIST to establish a $10 million spintronics material reserach facility in Minnesota

The US National Institute of Standards and Technology (NIST) and its partners in the US Nanoelectronic Computing Research (nCORE) consortium have awarded $10.3 million over four years to establish a spintronics research center in Mineesota.

The Center for Spintronic Materials in Advanced Information Technologies (SMART) will be led by and housed at the University of Minnesota Twin Cities and will include researchers from the Massachusetts Institute of Technology, Pennsylvania State University, Georgetown University and the University of Maryland.

Researchers demonstrate strong tunability and suppression of the spin signal and spin lifetime in graphene-based heterostructures

Researchers from Europe developed heterostructures built from graphene and topological insulators and have shown the strong tunability and suppression of the spin signal and spin lifetime in these structures.

Graphene topological insulator heterostructure channel (SEM photo)

Associate Professor Saroj Prasad Dash from Chalmers University of Technology explains that the advantage of using heterostructures built from two Dirac materials is tha graphene in proximity with topological insulators still supports spin transport, and concurrently acquires a strong spin–orbit coupling.

Researchers say that ferrimagnets-based spintronics devices could be faster than ferromagnets ones

Researchers from MIT, the Max-Born Institute, Technische Universität Berlin and the Deutsches Elektronen-Synchrotron (DESY) say ferrimagnets-based spintronics devices could be faster than ferromagnets ones.

Pt/Co44Gd56 ferrimagnetic schematic

Ferromagnets are traditional magnets - such as iron. Ferrimagnets are materials that have two types of ions with magnetic moments that are not equal - and are also polarized in opposite directions.Using these two ion types could be used, according to the researchers, to create smaller bits in magnetic memory as these will allow faster domain wall dynamics to occur.

Iron Oxide was found to be a promising magnon spintronics material

Researchers from the Johannes Gutenberg University Mainz, in cooperation with Utrecht University and the Center for Quantum Spintronics (QuSpin) at the Norwegian University of Science and Technology (NTNU), demonstrated that the antiferromagnetic material iron oxide is a promising magnon spintronics material.

An electrical current in a platinum wire creates a magnetic wave in the antiferromagnetic iron oxide

Iron oxide is a cheap material (it is the main material in rusted iron) that was shown to be able to carry magnon over long distances, with low access heat. For their demonstration, the researchers used used platinum wires on top of the insulating iron oxide. An electric current was introduced which led to the creation of magnons in the iron oxide.