Understanding the magnetic interactions is of fundamental importance in condensed-matter
physics as well as in the application of spintronic devices. In the past 13 years, the …

Chirality or handedness distinguishes an object from its mirror images, such as the spread
thumb, index finger, and middle finger of the right and left hand. In mathematics, it is …

Neuromorphic computing using nonvolatile memories is expected to tackle the memory wall
and energy efficiency bottleneck in the von Neumann system and to mitigate the stagnation …

Interfacial Dzyaloshinskii-Moriya Interactions 2. Spin and Magnetism in 2D Materials 3.
Curvilinear magnetism 4. Spin-orbit torques and emergent applications 5. All-optical …

Modulation of electronic properties in spintronic interfaces (spinterfaces) can give rise to the
optimization and even emergence of abundant spintronic effects. However, a proof-of …

After decades of efforts, some fundamental physics for electrical switching of magnetization
is still missing. Here, we report the discovery of the long-range intralayer Dzyaloshinskii …

Perpendicularly magnetized structures that are switchable using a spin current under field-
free conditions can potentially be applied in spin–orbit torque magnetic random-access …

Hybrid magnonic systems are a newcomer for pursuing coherent information processing
owing to their rich quantum engineering functionalities. One prototypical example is hybrid …

Symmetry breaking is a characteristic to determine which branch of a bifurcation system
follows upon crossing a critical point. Specifically, in spin–orbit torque (SOT) devices, a …

Beyond-CMOS computational paradigms are necessary to solving the problems that we face
with modern computers in achieving scalability, low energy consumption, reduced latency …