Magnonics is a research field that has gained an increasing interest in both the fundamental
and applied sciences in recent years. This field aims to explore and functionalize collective …

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 …

Hybrid dynamic systems have recently gained interest with respect to both fundamental
physics and device applications, particularly with their potential for coherent information …

Chirality or handedness distinguishes an object from its mirror images, such as the spread
thumb, index finger, and middle finger of the right and left hand. In mathematics, it is …

Spin waves can probe the Dzyaloshinskii-Moriya interaction (DMI), which gives rise to
topological spin textures, such as skyrmions. However, the DMI has not yet been reported in …

We report an experimental observation of magnon-magnon coupling in interlayer exchange
coupled synthetic antiferromagnets of FeCoB/Ru/FeCoB layers. An anticrossing gap of spin …

A broken interfacial inversion symmetry in ultrathin ferromagnet/heavy metal (FM/HM)
bilayers is generally believed to be a prerequisite for accommodating the Dzyaloshinskii …

Unidirectional information transport plays a key role in optics, microwave technology,
electronic logic circuits and devices. Spin waves (SWs) are considered to be a promising …

Spin waves represent the collective excitations of the magnetization field within a magnetic
material, providing dispersion curves that can be manipulated by material design and …

Magnons, the quanta of collective spin excitations in magnetically ordered materials, have
distinct properties that make them uniquely appealing for quantum information applications …