Abstract
We experimentally investigated the spectral dependence of the third-order susceptibility chi^{left( 3 right)} of Au triangular nanoplates in a broad wavelength region (400–1,000 nm). Complex shaped plasmonic nanoparticles provide a promising route to achieve control of their optical properties at the nanoscale. However, little is known about the effects of geometrical parameters to the optical nonlinearities and underlying mechanisms of the plasmon modes. Here, we obtained the chi^{left( 3 right)} of Au triangular nanoplates featuring a narrow plasmon resonance that is tunable in the visible and near-IR regions. This work demonstrates that the plasmonic triangular nanoplates simultaneously shows self-focusing and -defocusing, and saturable and reverse-saturable absorption properties at specific wavelength regions. Maximum amplitudes of real and imaginary components are − 6.8 × 10−18 m2/V2 at 668 nm and − 6.7 × 10−18 m2/V2 at 646 nm, respectively. Spectral dependence of the quantity chi^{left( 3 right)} enables comparison between different shaped plasmonic NPs to boost active plasmonic applications performance.
Highlights
We experimentally investigated the spectral dependence of the third-order susceptibility χ (3) of Au triangular nanoplates in a broad wavelength region (400–1,000 nm)
Consistence between discrete dipole approximation (DDA) simulation and experimental results suggests that Au nanoplates are well dispersed in PVA and can be considered as the ensemble of single Au nanoplates
The mean squared error (MSE) of our ellipsometric model was 17.0, which indicates a good fitting quality to evaluate the optical properties of the composite[16]
Summary
We experimentally investigated the spectral dependence of the third-order susceptibility χ (3) of Au triangular nanoplates in a broad wavelength region (400–1,000 nm). Real and imaginary components of χ (3) consist of successively positive and negative peaks This result indicate that Au simultaneously exhibit nonlinear absorption (saturable absorption SA and reversed saturable absorption RSA) and refraction (self-focusing and self-defocusing) at different wavelengths. Current scattered Z-scan results are not sufficient to give a comprehensive description to NLO properties of Au triangular plates and still require further research In this manuscript we investigated the spectral dependence of χ (3) of Au triangular nanoplates by a combined analysis of pump-probe spectroscopy and spectroscopic ellipsometry. The maximum saturable absorption and χ (3) locates at off-resonance wavelength, which shows a significant shift compared with linear LSPR This result is beneficial for understanding the nonlinear behavior of plasmonic triangular nanoplates and optimizing the nonlinear plasmonic devices at desired wavelengths
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