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Electrically tunable detector of THz-frequency signals based on an antiferromagnet

A. R. Safin, Vito Puliafito, Mario Carpentieri, Giovanni Finocchio, С. А. Никитов, Pavel Stremoukhov, A. Kirilyuk, Vasyl Tyberkevych, A. N. Slavin

2020Applied Physics Letters44 citationsDOIOpen Access PDF

Abstract

A concept of an electrically tunable resonance detector of THz-frequency signals based on an antiferromagnetic/heavy metal (AFM/HM) heterostructure is proposed. The conversion of a THz-frequency input signal into DC voltage is done using the inverse spin Hall effect in an (AFM/HM) bilayer. An additional bias DC in the HM layer can be used to vary the effective anisotropy of the AFM and, therefore, to tune the antiferromagnetic resonance (AFMR) frequency. The proposed AFM/HM heterostructure works as a resonance-type quadratic detector, which can be tuned by the bias current in the range of at least 10% of the AFMR frequency, and our estimations show that the sensitivity of this detector could be comparable to that of modern detectors based on the Schottky, Gunn, or graphene-based diodes.

Topics & Concepts

DetectorTerahertz radiationOptoelectronicsSchottky diodeMaterials scienceBiasingDiodeRectificationResonance (particle physics)VoltagePhysicsOpticsQuantum mechanicsParticle physicsTopological Materials and PhenomenaTerahertz technology and applicationsMagnetic properties of thin films