A recent study by an international group of researchers, published in the journal Nature, found the kagome ferromagnet Fe3Sn2 exhibits an electronic state that couples unusually strongly to an applied ...
An efficient way to transport electron spins from a ferromagnet into silicon essentially makes silicon magnetic, and provides an exciting step towards integration of magnetism and mainstream ...
One tantalizing possibility is one that involves the use of multiferroics (such as antiferromagnetic ferroelectrics) in contact with a ferromagnet as a pathway to control the ferromagnetic state.
Such a 2D ferromagnet could be very useful for spintronics and other applications. The confirmation of magnetization is performed using a variety of methods, including measuring the Hall Effect ...
fig. 1: Schematics of the antiferromagnet-ferromagnet bilayer system studied in this work. The current applied to the bilayer gives rise to a flow of electron spin in the perpendicular direction ...
A quantum critical point (QCP) is accessed by suppressing a finite-temperature phase transition to zero temperature, e.g. by applying pressure Quantum Tricritical Points Sven Friedemann and his ...
Research Physicist, Naval Research Laboratory, Washington, D.C. Kevin J. Smith, "Optical Control of Ultrafast Spin-Wave Relaxation by Magnetic Anisotropy in a Ferromagnet" (Advisor: Gunter Luepke).
Spintronic devices work with spin textures caused by quantum-physical interactions. Scientists have now studied graphene-cobalt-iridium heterostructures at BESSY II. The results show how two desired ...