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 …

Magnonics is a budding research field in nanomagnetism and nanoscience that addresses
the use of spin waves (magnons) to transmit, store, and process information. The rapid …

This paper provides a tutorial overview over recent vigorous efforts to develop computing
systems based on spin waves instead of charges and voltages. Spin-wave computing can …

Neurons in the brain behave as nonlinear oscillators, which develop rhythmic activity and
interact to process information. Taking inspiration from this behaviour to realize high-density …

We demonstrate the design of a neural network hardware, where all neuromorphic
computing functions, including signal routing and nonlinear activation are performed by spin …

Magnon spintronics is the field of spintronics concerned with structures, devices and circuits
that use spin currents carried by magnons. Magnons are the quanta of spin waves: the …

Almost all the world's information is processed and transmitted by either electric currents or
photons. Now they may get a serious contender: spin-wave-based devices may just perform …

The search for novel tools to control magnetism at the nanoscale is crucial for the
development of new paradigms in optics, electronics and spintronics. So far, the fabrication …

We present the design of a spin-wave-based microwave signal processing device. The
microwave signal is first converted into spin-wave excitations, which propagate in a …

We study the computational potential of a spin-wave (SW) substrate by applying two metrics
known from reservoir computing. At low intensities, SW scatterers can perform linear …