The desire to perform information processing, computation, communication, signal
generation, and related tasks, while dissipating as little energy as possible, has inspired …

In Part I of this topical review, we discussed dynamical phenomena in nanomagnets,
focusing primarily on magnetization reversal with an eye to digital applications. In this part …

When magnets are fashioned into nanoscale elements, they exhibit a wide variety of
phenomena replete with rich physics and the lure of tantalizing applications. In this topical …

Metamaterials are artificial structures that have recently enabled the realization of novel
electromagnetic components with engineered and even unnatural functionalities. Existing …

Using micromagnetic simulations we demonstrate core reversal of a fixed magnetic
skyrmion by modulating the perpendicular magnetic anisotropy of a nanomagnet with an …

Magnetoelastic (straintronic) switching of bistable magnetostrictive nanomagnets is an
extremely energy-efficient switching methodology for (magnetic) binary switches that has …

The need for increasingly powerful computing hardware has spawned many ideas
stipulating, primarily, the replacement of traditional transistors with alternate'switches' that …

Much attention has been focused on the design of low energy barrier nanomagnets (LBMs),
whose magnetizations vary randomly in time owing to thermal noise, for use in binary …

Execution of probabilistic computing algorithms require electrically programmable
stochasticity to encode arbitrary probability functions and controlled stochastic interaction or …

Modulation of stress anisotropy of magnetostrictive nanomagnets with strain offers an
extremely energy-efficient method of magnetization reversal. The reversal process, however …