Simulation and experiment of pump distribution in LD end-pumped Nd:YAG single crystal fiber

XiaoTian Cai; Xiao Li; GuoMin Zhao

doi:10.1117/12.2256803

13 January 2017 Simulation and experiment of pump distribution in LD end-pumped Nd:YAG single crystal fiber

XiaoTian Cai, Xiao Li, GuoMin Zhao

Proceedings Volume 10254, XXI International Symposium on High Power Laser Systems and Applications 2016; 102540A (2017) https://doi.org/10.1117/12.2256803
Event: XXI International Symposium on High Power Laser Systems and Applications, 2016, Gmunden, Austria

Abstract

The spread of the pump model, established based on MATLAB, simulates the distribution of the pump in End-Pumped single crystal fiber. Simulation results show that the pump in the rod single crystal fiber will converge again. By changing the crystal absorption coefficient, it can be found that smaller the absorption coefficient is, more uniform the pump distribution is; when it is greater, the pump will concentrate to the pump end more seriously. Establish End- Pumped Experimental platform in the experiment, the crystal is 1 mm in diameter and length of 30 mm, Nd³⁺ doping concentration is 1%. Change the position of the pump light's focus in the crystal, we can see different distribution of the pump light by different focus location in the crystal and find that the pump light has the most homogeneous distribution when the focus is on the crystal axis and has 1mm distance to the pump end face. At this time, the second convergence of the pump is clearly visible. By changing the pump wavelength, crystal absorption coefficient changes. It is found that under the same pump power, absorption coefficient is greater, the pump will concentrate to the pump end more seriously. And the temperature of crystal pump end rises, which is identical with the simulation results. The results indicate that for the single crystal fiber, the higher absorption coefficient is not better, low absorption coefficient leads to the uniform distribution of the pump, there will be a better absorption in a relatively long length of single crystal fiber. And due to the lower end face temperature, end pump power upper limit will also increase.

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XiaoTian Cai, Xiao Li, and GuoMin Zhao "Simulation and experiment of pump distribution in LD end-pumped Nd:YAG single crystal fiber", Proc. SPIE 10254, XXI International Symposium on High Power Laser Systems and Applications 2016, 102540A (13 January 2017); https://doi.org/10.1117/12.2256803

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KEYWORDS

Crystals

Absorption

Laser crystals

Nd:YAG lasers

Fiber lasers

Photonic crystal fibers

Doping

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