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Computational capability for physical reservoir computing using a spin-torque oscillator with two free layers

Terufumi Yamaguchi, Sumito Tsunegi, Kohei Nakajima, Tomohiro Taniguchi

2023Physical review. B./Physical review. B17 citationsDOIOpen Access PDF

Abstract

A numerical analysis on the computational capability of physical reservoir computing utilizing a spin-torque oscillator with two free layers is reported. Conventional spintronics devices usually consist of two ferromagnets, where the direction of magnetization in one layer, called the free layer, can move while that of the other, the reference layer, is fixed. Recently, however, devices with two free layers, where the reference layer is replaced by another free layer, have been developed for various practical applications. Adding another free layer drastically changes the dynamical response of the device through the couplings via the spin-transfer effect and the dipole magnetic field. A numerical simulation of the Landau-Lifshitz-Gilbert equation and a statistical analyses of the Lyapunov exponent and the synchronization index reveal the appearance of an amplitude-modulated oscillation and chaos in the oscillators with two free layers. Such complex dynamics qualitatively change the computational capability of physical reservoir computing because the computational resource is dynamics of the physical system. An evaluation of the short-term memory capacity clarifies that oscillators with two free layers have a larger capacity than those of conventional oscillators. An enhancement in capacity near the edge of echo state property, i.e., the boundary between zero and finite synchronization index, is also found.

Topics & Concepts

Magnetization dynamicsSynchronization (alternating current)Free surfacePhysicsMagnetic fieldTopology (electrical circuits)MagnetizationMechanicsQuantum mechanicsEngineeringElectrical engineeringNeural Networks and Reservoir ComputingAdvanced Memory and Neural ComputingNonlinear Dynamics and Pattern Formation
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