Hyper Rayleigh scattering is used to investigate the second harmonic light collected from a liquid suspension
of silver metallic particles, the diameter of which ranges from 20 nm up to 80 nm. From the dependence of
the quadratic hyperpolarizability as a function of the particle size, it is inferred that retardation effects of the
electromagnetic fields play a major role in the frequency conversion process. The hyper Rayleigh scattering
intensity was also recorded as a function of the angle of polarization of the incident fundamental wave. For
the particles with a diameter of 20 nm, the harmonic response is dominated by the dipolar contribution arising
from the deviation of the particle shape from that of a perfect sphere. It is therefore concluded that the origin
of the nonlinear polarization for the smaller silver particle sizes arises from the surface similarly to the case
of the gold metallic particles. For larger diameter particles, retardation effects in the interaction of the
electromagnetic fields with the particles cannot be neglected any longer, and the response deviates from the
pure dipolar response, exhibiting a strong quadrupolar contribution. The weighting parameter ζ
V
is used,
equaling unity for a pure quadrupolar contribution and vanishing for a pure dipolar response, in order to
quantify the relative magnitude of these two dipolar and quadrupolar contributions. The size dependence of
this parameter obtained for the silver particles is compared to the dependence previously reported for gold
metallic particles.
The second-harmonic generation of 150 nm spherical gold nanoparticles is investigated both experimentally and theoretically. We demonstrate that the interference effects between dipolar and octupolar plasmons can be used as a fingerprint to discriminate the local surface and non-local bulk contributions to the second-harmonic generation. By fitting the experimental data with the electric fields computed with finite-element method (FEM) simulations, the Rudnick and Stern parameters weighting the relative nonlinear sources efficiencies are evaluated and the validity of the hydrodynamic model and the local density approximation approaches are discussed.
We report the optical second harmonic generation from individual 150 nm diameter gold nanoparticles dispersed in gelatin. The quadratic hyperpolarizability of the particles is determined and the input polarization dependence of the second harmonic intensity obtained. These results are found in excellent agreement with ensemble measurements and finite element simulations. These results open up new perspectives for the investigation of the nonlinear optical properties of noble metal nanoparticles.
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