Litcius/Paper detail

Enhanced tunable second harmonic generation from twistable interfaces and vertical superlattices in boron nitride homostructures

Kaiyuan Yao, Nathan R. Finney, Jin Zhang, Samuel L. Moore, Lede Xian, Nicolas Tancogne-Dejean, Fang Liu, Jenny Ardelean, Xinyi Xu, Dorri Halbertal, K. Watanabe, T. Taniguchi, Hector Ochoa, Ana Asenjo-Garcia, Xiaoyang Zhu, D. N. Basov, Angel Rubio, Cory R. Dean, James Hone, P. James Schuck

2021Science Advances154 citationsDOIOpen Access PDF

Abstract

Broken symmetries induce strong even-order nonlinear optical responses in materials and at interfaces. Unlike conventional covalently bonded nonlinear crystals, van der Waals (vdW) heterostructures feature layers that can be stacked at arbitrary angles, giving complete control over the presence or lack of inversion symmetry at a crystal interface. Here, we report highly tunable second harmonic generation (SHG) from nanomechanically rotatable stacks of bulk hexagonal boron nitride (BN) crystals and introduce the term twistoptics to describe studies of optical properties in twistable vdW systems. By suppressing residual bulk effects, we observe SHG intensity modulated by a factor of more than 50, and polarization patterns determined by moiré interface symmetry. Last, we demonstrate greatly enhanced conversion efficiency in vdW vertical superlattice structures with multiple symmetry-broken interfaces. Our study paves the way for compact twistoptics architectures aimed at efficient tunable frequency conversion and demonstrates SHG as a robust probe of buried vdW interfaces.

Topics & Concepts

Boron nitrideMaterials scienceSuperlatticeOptoelectronicsvan der Waals forceSecond-harmonic generationNitrideHigh harmonic generationBoronInterface (matter)HarmonicSurface second harmonic generationHexagonal boron nitrideWide-bandgap semiconductorNanotechnologyGallium nitrideSum-frequency generationNonlinear opticsPlasmonic and Surface Plasmon ResearchGraphene research and applicationsAdvanced Fiber Laser Technologies