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Spin wave interference detection via inverse spin Hall effect

Michael Balinskiy, Howard Chiang, David Gutierrez, Alexander Khitun

2021Applied Physics Letters13 citationsDOIOpen Access PDF

Abstract

In this Letter, we present experimental data that demonstrate a spin wave interference detection using an inverse spin Hall effect (ISHE). Two coherent spin waves are excited in a yttrium-iron garnet waveguide by continuous microwave signals. The initial phase difference between the spin waves is controlled by the external phase shifter. The ISHE voltage is detected at a distance of 2 and 4 mm away from the spin wave generating antennas by an attached Pt layer. Experimental data show ISHE voltage oscillation as a function of the phase difference between the two interfering spin waves. This experiment demonstrates an intriguing possibility of using ISHE in a spin wave logic circuit converting a spin wave phase into an electric signal.

Topics & Concepts

Spin waveSpin Hall effectYttrium iron garnetPhysicsCondensed matter physicsSpin (aerodynamics)Interference (communication)Spin polarizationElectrical engineeringQuantum mechanicsFerromagnetismChannel (broadcasting)ThermodynamicsEngineeringElectronQuantum and electron transport phenomenaMagnetic properties of thin filmsQuantum optics and atomic interactions
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