We report on second-harmonic generation from Ga nanoparticle monolayers embedded in a dielectric transparent matrix for different average radii and at different temperatures. The nanoparticles are produced in the liquid phase by means of a self-organized process in ultra high vacuum (Vollmer–Weber mode). The measurements show a strong size dependence of the second-harmonic signal. A wide hysteresis cycle appears in correspondence of the melting–solidification process. The experimental results have been analyzed through a nonlinear Mie scattering model and explained in terms of the coupling of SH radiation with surface plasma oscillations in the nanoparticles.
Second-harmonic generation in gallium nanoparticle monolayers across the solid-to-liquid phase transition
STELLA, ANGIOLINO;MALVEZZI, ANDREA MARCO;PATRINI, MADDALENA;
2003-01-01
Abstract
We report on second-harmonic generation from Ga nanoparticle monolayers embedded in a dielectric transparent matrix for different average radii and at different temperatures. The nanoparticles are produced in the liquid phase by means of a self-organized process in ultra high vacuum (Vollmer–Weber mode). The measurements show a strong size dependence of the second-harmonic signal. A wide hysteresis cycle appears in correspondence of the melting–solidification process. The experimental results have been analyzed through a nonlinear Mie scattering model and explained in terms of the coupling of SH radiation with surface plasma oscillations in the nanoparticles.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
