The manipulation of magnetic properties by an electric field in magnetoelectric multiferroic
materials has driven significant research activity, with the goal of realizing their …

Current-induced spin-orbit torque (SOT) is attracting increasing interest and exciting
significant research activity. We aim to provide a comprehensive review of recent progress in …

The atomic thickness of two-dimensional materials provides a unique opportunity to control
their electrical and optical properties as well as to drive the electronic phase transitions by …

This article reviews spintronics based memories, in particular, magnetic random access
memory (MRAM) in a systematic manner. Debuted as a humble 4 Mb product by FreeScale …

The field of spintronics has attracted tremendous attention recently owing to its ability to offer
a solution for the present-day problem of increased power dissipation in electronic circuits …

Symmetry breaking together with strong spin–orbit interaction gives rise to many exciting
phenomena within condensed matter physics. A recent example is the existence of chiral …

Piezomagnetism couples strain linearly to magnetic order, implying that it can produce and
control magnetization. However, unlike magnetostriction, which couples magnetization …

Electric field control of spin–orbit torque in ferromagnets has been intensively pursued in
spintronics to achieve efficient memory and computing devices with ultralow energy …

The realization of strong magnetoelectric (ME) coupling for efficiently controlling of
magnetism is urgently needed but still a significant challenge. Based on first-principle …

The anomalous Hall effect is allowed by symmetry in some non-collinear antiferromagnets
and is associated with Bloch-band topological features. This topological anomalous Hall …