Litcius/Paper detail

Slow-Wave-Based Nanomagnonic Diode

Matías Grassi, Moritz Geilen, Damien Louis, Morteza Mohseni, Thomas Brächer, Michel Hehn, Daniel Stoeffler, Matthieu Bailleul, Philipp Pirro, Yves Henry

2020Physical Review Applied68 citationsDOIOpen Access PDF

Abstract

Nonreciprocal wave propagation is important for signal processing and wave-based computing, but has not been realized in spin-wave devices. The authors engineer such nonreciprocity for spin waves in a transversely magnetized ferromagnetic bilayer so that the waves completely stop in one direction while still propagating with significant velocity in the opposite one. Electrical and optical measurements are combined with analytical and numerical modeling to provide a picture of the chiral mode hybridization responsible for this phenomenon. This work is an experimental realization of a magnonic diode and paves the way for designing complex spin-wave devices required for magnon computing.

Topics & Concepts

MagnonRealization (probability)PhysicsSpin waveBilayerDiodeFerromagnetismSIGNAL (programming language)Work (physics)Mode (computer interface)OpticsOptoelectronicsContinuous waveMicromagneticsLight-emitting diodeWave propagationSense (electronics)Finite-difference time-domain methodMagnetic properties of thin filmsTopological Materials and PhenomenaQuantum and electron transport phenomena