Magnonics addresses the dynamic excitations of a magnetically ordered material. These
excitations, referred to as spin waves and their quanta, magnons, are a powerful tool for …

Spin waves and their quanta magnons are collective excitation of electron spins in magnetic
materials which can serve as information carriers for future low-power-consumption …

Nanomagnets form the building blocks for a gamut of miniaturized energy-efficient devices
including data storage, memory, wave-based computing, sensors, and biomedical devices …

Here, we report on the experimental study of spin-wave propagation and interaction in the
double-branched Mach–Zehnder interferometer (MZI) scheme. We show that the use of a …

In this work, we investigate the spin-wave propagation in three-dimensional nanoscale
CoFeB/Ta/NiFe meander structures fabricated on a structured SiO 2/Si substrate. The …

The properties of spin-wave quanta, referred to as magnons, make them a promising signal
carrier for the transmission and processing of information in magnetic materials. In this field …

Multiferroics offer an elegant means to implement voltage control and on the fly
reconfigurability in microscopic, nanoscaled systems based on ferromagnetic materials …

Magnonics rely on the wave nature of the magnetic excitations to process information, an
approach that is common to many fields such as photonics, phononics, and plasmonics …

Magnonics, an emerging research field that uses the quanta of spin waves as data carriers,
has a potential to dominate the post-CMOS era owing to its intrinsic property of ultra-low …

We study a simple magnetic system composed of periodically modulated magnetic dipoles
with an easy axis. Upon adjusting the geometric modulation amplitude alone, chains and …