Coherent Magnons with Giant Nonreciprocity at Nanoscale Wavelengths

Gallardo, Rodolfo; Weigand, Markus; Schultheiss, Katrin; Kakay, Attila; Mattheis, Roland; Raabe, Jorg; Schuetz, Gisela; Deac, Alina; Lindner, Juergen; Wintz, Sebastian

Abstract

Nonreciprocal wave propagation arises in systems with broken time-reversal symmetry and is key to the functionality of devices, such as isolators or circulators, in microwave, photonic, and acoustic applications. In magnetic systems, collective wave excitations known as magnon quasiparticles have so far yielded moderate nonreciprocities, mainly observed by means of incoherent thermal magnon spectra, while their occurrence as coherent spin waves (magnon ensembles with identical phase) is yet to be demonstrated. Here, we report the direct observation of strongly nonreciprocal propagating coherent spin waves in a patterned element of a ferromagnetic bilayer stack with antiparallel magnetic orientations. We use time-resolved scanning transmission X-ray microscopy (TR-STXM) to directly image the layer-collective dynamics of spin waves with wavelengths ranging from 5 mu m down to 100 nm emergent at frequencies between 500 MHz and 5 GHz. The experimentally observed nonreciprocity factor of these counter-propagating waves is greater than 10 with respect to both group velocities and specific wavelengths. Our experimental findings are supported by the results from an analytic theory, and their peculiarities are further discussed in terms of caustic spin-wave focusing.

Más información

Título según WOS: Coherent Magnons with Giant Nonreciprocity at Nanoscale Wavelengths
Título de la Revista: ACS NANO
Volumen: 18
Número: 7
Editorial: AMER CHEMICAL SOC
Fecha de publicación: 2024
Página de inicio: 5249
Página final: 5257
DOI:

10.1021/acsnano.3c08390

Notas: ISI