Researchers from The Grainger College of Engineering at the University of Illinois Urbana-Champaign have developed the first ...
Sliding ferroelectrics are a type of two-dimensional (2D) material realized by stacking nonpolar monolayers (atom-thick layers that lack an electric dipole). When these individual layers are stacked, ...
Figure 1b presents a scanning electron microscopy (SEM) image of the structure used in the experiment. A 40-nm-thick Ni 81 Fe 19 (permalloy, Py) film is patterned into a spin-wave waveguide that is 5 ...
The universe has no visible boundaries, and it is currently in constant expansion. That is the reason scientists came up with the concept of a domain wall: a transition area between two magnetic ...
Two-dimensional (2D) van der Waals are made of atomically thin layers, held together by weak van der Waals forces. These materials have been the focus of numerous studies, as their unique properties ...
Researchers discovered a new mechanism for faster, more efficient magnetic domain wall motion using dual spin torques in cobalt-iridium-platinum multilayers. In spintronic memory, information is ...
Researchers have made ferroelectric domain wall diodes from structures etched on the surface of an insulating single crystal. The new devices, which are made from a material that is already widely ...
Designer-defect clamping of ferroelectric domain walls for more-stable nanoelectronics Improved stability a significant step forward for domain-wall nanoelectronic data storage Date: January 22, 2020 ...
The domain wall is a concept that physicists are relying on to explain one of the biggest mysteries in the universe. Unlike the geometrical limitations we have on Earth, like separations between ...
Scientists can now reliably create a strange quantum object called a domain wall. The discovery could lead to new quantum technology and to a better understanding of quantum particles in general.