Your search keyword '"Löchner, F.J.F."' showing total 4 results

1. Hybrid Dielectric Metasurfaces for Enhancing Second-Harmonic Generation in Chemical Vapor Deposition Grown MoS2 Monolayers

Author

Löchner, F.J.F., George, A., Koshelev, K., Bucher, T., Najafidehaghani, E., Fedotova, A., Choi, D.-Y., Pertsch, T., Staude, I., Kivshar, Y., Turchanin, A., Setzpfandt, F., and Publica

Subjects

2D Material, dielectric metasurface, Fano resonance, chemical vapor deposition, second-harmonic generation

Abstract

The coupling of two-dimensional materials with optical metasurfaces is a promising avenue to enhance the advantageous properties of both platforms. Here we integrate an ultrathin monolayer of the transition metal dichalcogenide (TMD) MoS2, grown by chemical-vapor deposition, with a silicon metasurface, to obtain a hybrid system with enhanced nonlinear response. To this end, we utilize a metasurface exhibiting resonances with high quality factors, which provides increased optical fields. Using the nonlinearity of the TMD monolayer, these resonantly enhanced fields enable more efficient nonlinear frequency conversion. In particular, we experimentally observe an enhanced efficiency of second-harmonic generation in our hybrid structure. By comparing second-harmonic generation using different photonic resonances, we furthermore identify optimized conditions for the spatial distribution of the local optical fields to maximize the nonlinear response. Our results enable the precise design of hybrid structures consisting from TMDs and metasurfaces for future applications.

Published

2021

2. Second-Harmonic Generation in Resonant Nonlinear Metasurfaces Based on Lithium Niobate

Author

Fedotova, A., Younesi, M., Sautter, J., Vaskin, A., Löchner, F.J.F., Steinert, M., Geiss, R., Pertsch, T., Staude, I., Setzpfandt, F., and Publica

Abstract

Lithium niobate is an excellent and widely used material for nonlinear frequency conversion due to its strong optical nonlinearity and broad transparency region. Here, we report the fabrication and experimental investigation of resonant nonlinear metasurfaces for second-harmonic generation based on thin-film lithium niobate. In the fabricated metasurfaces, we observe pronounced Mie-type resonances leading to enhanced second-harmonic generation in the direction normal to the metasurface. We find the largest second-harmonic generation efficiency for the resonance dominated by the electric contributions because its specific field distribution enables the most efficient usage of the largest element of the lithium niobate nonlinear susceptibility tensor. This is confirmed by polarization-resolved second-harmonic measurements, where we study contributions from different elements of the nonlinear susceptibility tensor to the total second-harmonic signal. Our work facilitates establishing lithium niobate as a material for resonant nanophotonics.

Published

2020

3. Controlling second-harmonic diffraction by nano-patterning MoS2 monolayers

Author

Löchner, F.J.F., Mupparapu, R., Steinert, M., George, A., Tang, Z., Turchanin, A., Pertsch, T., Staude, I., Setzpfandt, F., and Publica

Abstract

Monolayers of transition metal dichalcogenides have a strong second-order nonlinear response enabling second-harmonic generation. Here, we control the spatial radiation properties of the generated second harmonic by patterning MoS2 monolayers using focused ion beam milling. We observe diffraction of the second harmonic into the zero and first diffraction orders via an inscribed one-dimensional grating. Additionally, we included a fork-like singularity into the grating to create a vortex beam in the first diffraction order.

Published

2019

4. Polarization-dependent second harmonic diffraction from resonant GaAs metasurfaces

Author

Löchner, F.J.F., Fedotova, A.N., Liu, S., Keeler, G.A., Peake, G.M., Saravi, S., Shcherbakov, M.R., Burger, S., Fedyanin, A.A., Brener, I., Pertsch, T., Setzpfandt, F., Staude, I., and Publica

Abstract

Resonant semiconductor metasurfaces are an emerging versatile platform for nonlinear photonics. In this work, we investigate second-harmonic generation from metasurfaces consisting of two-dimensional square arrays of gallium arsenide nanocylinders as a function of the polarization of the fundamental wave. To this end, we perform nonlinear second harmonic microscopy, where the pump wavelength is tuned to the resonances of the metasurfaces. Furthermore, imaging the generated nonlinear signal in Fourier space allows us to analyze the spatial properties of the generated second harmonic. Our experiments reveal that the second harmonic is predominantly emitted into the first diffraction orders of the periodic arrangements, and that its intensity varies with the polarization angle of the fundamental wave. While this can be expected from the structure of the GaAs nonlinear tensor, the characteristics of this variation itself are found to depend on the pump wavelength. Interestingly, we show that the metasurface can reverse the polarization dependence of the second harmonic with respect to an unstructured GaAs wafer. These general observations are confirmed by numerical simulations using a simplified model for the metasurface. Our results provide valuable input for the development of metasurface-based classical and quantum light sources based on parametric processes.

Published

2018