Litcius/Paper detail

Electrically Controllable Terahertz Second‐Harmonic Generation in GaAs

Kanghee Lee, Jagang Park, Bong Joo Kang, Won Tae Kim, Hyeon‐Don Kim, Soojeong Baek, Kwang Jun Ahn, Bumki Min, Fabıan Rotermund

2020Advanced Optical Materials24 citationsDOI

Abstract

Abstract Terahertz radiation and its nonlinear optical manipulation may possess potential for a variety of applications in next‐generation electronics and optics. Pioneering studies have shown that the nonlinearity of carrier drift in semiconductors and graphene can be utilized for nonlinear optical processes at terahertz frequencies. However, because of the symmetric response of carriers to the terahertz field direction, most experiments have confirmed only the presence of odd‐order nonlinear processes. In this study, electric‐field‐induced terahertz second‐harmonic generation (SHG) in photoexcited gallium arsenide is demonstrated, where an applied bias field breaks the directional symmetry of the drift transport of electrons. The amplitudes of odd‐ and even‐harmonic waves are found to be highly controllable using the bias field. The measured conversion efficiency of SHG reaches beyond 10 −5 , substantially higher than the value previously reported. This terahertz harmonic generation platform with electrical controllability may be useful for future nonlinear applications at terahertz frequencies.

Topics & Concepts

Terahertz radiationTerahertz gapSecond-harmonic generationOptoelectronicsTerahertz spectroscopy and technologyPhotomixingMaterials scienceElectric fieldHigh harmonic generationGallium arsenideTerahertz time-domain spectroscopyNonlinear opticsGrapheneSemiconductorFar-infrared laserOpticsPhysicsLaserNanotechnologyTerahertz metamaterialsQuantum mechanicsTerahertz technology and applicationsSuperconducting and THz Device TechnologyGyrotron and Vacuum Electronics Research