Litcius/Paper detail

Observation of Anisotropic Second Harmonic Generation in Two-Dimensional Niobium Diselenide

Khansa Younus, Yu Zhou, Menglong Zhu, Defeng Xu, Xiao Guo, Asad Ahmed, Fangping Ouyang, Han Huang, Si Xiao, Zhihui Chen, Jun He

2024The Journal of Physical Chemistry Letters15 citationsDOI

Abstract

The intrinsic anisotropy of NbSe 2 provides a favorable prerequisite of second harmonic generation (SHG) and rich possibilities for tailoring its nonlinear optical (NLO) properties. Here we report the highly efficient SHG of mechanically exfoliated NbSe 2 flakes. The nonlinear optical response changes with excitation wavelengths, layer thicknesses, and polarizations of the excitation laser. The anisotropic SHG response further exhibits the intrinsic non-centrosymmetric crystal structure and could effectively assign the crystalline orientation of NbSe 2 flakes. Interestingly, although NbSe 2 flakes with tens of nanometers thickness experience attenuations in SHG performance, more efficient SHG anisotropy ratios were obtained, which are around 4 times higher than that of the 5-layer counterpart. The determined second-order nonlinearities of NbSe 2 flakes (monolayer: ∼1.0 × 10 3 pm/V; 3-layer: ∼73 pm/V) are comparable to those of the commonly reported two-dimensional materials (e.g., MoS 2, WSe 2, graphene) with the same number of layers and much higher than those of commercial nonlinear optical crystals.

Topics & Concepts

Second-harmonic generationMaterials scienceAnisotropySecond-harmonic imaging microscopyMonolayerExcitationNiobiumOptoelectronicsSurface second harmonic generationLayer (electronics)DiselenideNonlinear opticalWavelengthCrystal (programming language)GrapheneNanometreLaserNonlinear opticsOpticsNanotechnologyNonlinear systemPhysicsComposite materialMetallurgyComputer scienceSeleniumQuantum mechanicsProgramming language2D Materials and ApplicationsPerovskite Materials and ApplicationsAdvanced Fiber Laser Technologies