Abstract

Ultraviolet and blue light were obtained by nonlinear frequency conversion in a random laser (RL) based on Nd0.10Y0.90Al3(BO3)(4) nanocrystalline powder. RL operation at 1062 nm, due to the F-4(3/2) -> I-4(11/2) transition of neodymium ions (Nd3+), was achieved by exciting the Nd3+ with a tunable beam from 680 to 920 nm covering the ground state absorption transitions to the F-4(9/2), (F-4(7/2),S-4(3/2)), (F-4(5/2),H-2(9/2)), and F-4(3/2) states. Light from 340 to 460 nm was obtained via the second-harmonic generation of the excitation beam while tunable blue light, from 417 to 486 nm, was generated by self-sum-frequency mixing between the excitation beam and the RL emission.