Interband-transition-modified third-order nonlinear optical properties of Al nanoshells in carbon disulfide

摘要

Interband transitions have important impacts on the nonlinear responses of metal nanoparticles. This work calculated the third-order nonlinear refraction index n(2eff) and absorption coefficient beta(eff) of Al nanoshells in liquid carbon disulfide (CS2) by using Maxwell-Garnett effective medium theory. Calculation results reveal that the interband-transition-induced absorption (IA) of Al nanoshells can enhance the nonlinear refraction index and absorption coefficient of composites in the near-infrared region. The peak values of n(2eff) and beta(eff) deviate from the IA peak and occur on the long-wavelength side of the interband transitions, which could be qualitatively interpreted by the increase in the linear refraction index of the CS2 induced by the irradiation of incident light. With decreasing nanoshell thickness, the n(2eff) and beta(eff) peaks shift toward longer wavelengths and their deviations from the IA position become more noticeable. Besides, by controlling the nanoshell thickness together with the volume fraction of Al nanoparticles, one can optimize the nonlinear optical response of Al-CS2 composites.