High-energy Nd-Yag laser ignition of coals: Experimental observations

A modeling analysis of laser-induced ignition of coals is presented. The model is one dimensional, transient, and incorporates the following: the surface ignition reaction, the in-depth pyrolysis, the gas-phase absorption of the laser radiation and by the pyrolysis products, and the gas-phase chemic

The paper reports on the characterization of a side-pumped 40 W CW Nd:YAG laser. A side-pumping conÿguration with six laser diodes is used for the laser. We show the comparison between the calculated and measured pump energy distributions in the laser crystal. The birefringence and the thermal lens

In this paper we report on the characterization of a diode-side-pumped Nd:YAG rod laser operating at 300 W CW output power. The simulated and measured pump energy distributions in the crystal are compared. The thermal lens effect of the Nd:YAG have been experimentally investigated, and its influence

This paper reports on the characterization of a diode-side-pumped CW Nd:YAG laser. A side-pumped conÿguration with 9 laser diodes is used for the laser. Pump light is directly coupled into the Nd:YAG rod without focusing lenses and the pump light distribution in the Nd:YAG rod was calculated. A maxi

We have demonstrated efficient frequency doubling of high-energy fundamental Nd:YAG laser pulse energy of the multi-joule (J) level at a high repetition rate using high optical-quality top-seeded solution growth CsB 3 O 5 (TSSG-CBO) crystal for the first time. Second-harmonic (532 nm) generation (SH