Interplay between random laser performance and self-frequency conversions in NdxY1.00−xAl3(BO3)4 nanocrystals powders

Abstract

Random Laser emission at 1.06μm, self-second-harmonic generation at 0.53μm and self-sum-frequency generation at 0.46μm were investigated in NdxY1.00−xAl3(BO3)4 nanocrystalline powders, for 0.05⩽x⩽1.00, excited by a pulsed laser operating at 808nm, focusing on the interplay between the RL performance and the second-order nonlinear processes. The RL performance, characterized by a figure-of-merit relating the laser slope efficiency and the excitation pulse energy threshold, improved as x increased up to 1.00 while the efficiency of the self-frequency conversion processes reduced for increasing x because of distortions introduced in the crystalline structure of the grains. The RL wavelength was also dependent on the Nd3+ concentration and presented a redshift from 1061.9nm to 1063.5nm for increasing values of x.