ma chi, he yu-juan, wei xiao-feng, et al. Twodimension numerical simulation study on highpower highefficiency tripling harmonic[J]. High Power Laser and Particle Beams, 2000, 12.
Citation:
ma chi, he yu-juan, wei xiao-feng, et al. Twodimension numerical simulation study on highpower highefficiency tripling harmonic[J]. High Power Laser and Particle Beams, 2000, 12.
ma chi, he yu-juan, wei xiao-feng, et al. Twodimension numerical simulation study on highpower highefficiency tripling harmonic[J]. High Power Laser and Particle Beams, 2000, 12.
Citation:
ma chi, he yu-juan, wei xiao-feng, et al. Twodimension numerical simulation study on highpower highefficiency tripling harmonic[J]. High Power Laser and Particle Beams, 2000, 12.
Type Ⅰ/ Type Ⅱ angledetuning tripling frequency scheme of KDP crystal was chose for triple harmonic conversion with large aperture and high power. Based on threewave mixing nonlinear coupling equation, wrote a twodimension program for numerical simulation triple harmonic conversion by introducing discrete Fourier transform and a fourthorder Runge-Kutta integrating method. With the code, conversion features and efficiencies of second and third harmonics were calculated with different thickness of crystal and different angledetuning. Tripling frequency system assuming that the intensity distribution of 1ω is super Gaussian distribution with sixthorder is optimized. The results showed that the system has both broad dynamic range and more high conversion efficiency.
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