Realization of a nanoscale magnonic directional coupler for all-magnon circuits.

Magnons are of great interest as data carriers in future low-energy computing devices. The main challenge is the realization of an integrated magnonic circuit. Such a circuit requires the development of a universal reconfigurable unit for performing different logic operations. Moreover, a condition for the cascading of multiple units, while all the information is kept within the magnonic domain, is a nonlinear functionality of the unit. Here, we report on the experimental realization of a nanoscale magnonic directional coupler which fulfills all these criteria. Data is coded into the spin wave amplitude and is guided towards one of its two outputs depending on the signal frequency, magnitude, and on the magnetic field. By controlling these degrees of freedom, the multi-functionality and reconfigurability of the device is achieved. The operation of the directional coupler as a multiplexer, fan-out, AND, and XOR logic gates, as well as a half-adder, is demonstrated.