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Observation of carrier concentration dependent spintronic terahertz emission from <i>n</i>-GaN/NiFe heterostructures

Eric Vetter, Melike Biliroglu, Dovletgeldi Seyitliyev, Pramod Reddy, Ronny Kirste, Zlatko Sitar, Ramón Collazo, Kenan Gündoğdu, Dali Sun

2020Applied Physics Letters19 citationsDOI

Abstract

The development of terahertz (THz) spintronics has created a paradigm shift in the generation of THz radiation through the combination of ultrafast magnetism and spin-based electronics. However, research in this area has primarily focused on all-metallic devices comprising a ferromagnetic thin film adjacent to a non-magnetic heavy metal. Here, we report the experimental observation of spintronic THz emission from an n-doped wide bandgap semiconductor, n-GaN. We found that the amplitude of THz emission strongly depends on the carrier concentration of the semiconductor layer, which could be attributed to the tunable Rashba state occurring at the n-GaN/ferromagnet interface. Our work offers exciting prospects for pursuing wide bandgap semiconductor-based spintronic THz devices and demonstrating their intriguing spin Hall physics at the ultrafast timescale.

Topics & Concepts

SpintronicsTerahertz radiationMaterials scienceOptoelectronicsHeterojunctionMagnetic semiconductorFerromagnetismSemiconductorWide-bandgap semiconductorBand gapMagnetismCondensed matter physicsPhysicsTerahertz technology and applicationsQuantum and electron transport phenomenaMagnetic properties of thin films
Observation of carrier concentration dependent spintronic terahertz emission from <i>n</i>-GaN/NiFe heterostructures | Litcius