Effect of 355 nm and 1064 nm dual-wavelength conditioning on the bulk damage properties of DKDP crystal

Yunfei Li; Jinfang Shi; Rong Qiu; Jian Yu; Decheng Guo; Lei Zhou

doi:10.11884/HPLPB202234.220060

[1] Burnham A K, Hackel L A, Wegner P J, et al. Improving 351nm damage perfmance of largeaperture fused silica DKDP optics[C]Proceedings of SPIE 4679, LaserInduced Damage in Optical Materials. 2002: 173185.

[2] Carr C W, Auerbach J M. Effect of multiple wavelengths on laser-induced damage in KH_(2-x)D_xPO₄ crystals[J]. Optics Letters, 31, 595-597(2006).

[3] De Yoreo J J, Burnham A K, Whitman P K. Developing KH₂PO₄ and KD₂PO₄ crystals for the world's most power laser[J]. International Materials Reviews, 47, 113-152(2002).

[4] Krol H, Gallais L, Grèzes-Besset C, et al. Investigation of nanoprecursors threshold distribution in laser-damage testing[J]. Optics Communications, 256, 184-189(2005).

[5] Carr C W, Feit M D, Muyco J J, et al. Effect on scattering of complex mphology of DKDP bulk damage sites[C]Proceedings of SPIE, LaserInduced Damage in Optical Materials. 2004: 532539.

[6] Giuliano C R. Laser-induced damage to transparent dielectric materials[J]. Applied Physics Letters, 5, 137-139(1964).

[7] Bloembergen N. Laser-induced electric breakdown in solids[J]. IEEE Journal of Quantum Electronics, 10, 375-386(1974).

[8] Hu Guohang, Zhao Yuanan, Li Dawei, et al. Wavelength dependence of laser-induced bulk damage morphology in KDP crystal: determination of the damage formation mechanism[J]. Chinese Physics Letters, 29, 037801(2012).

[9] Hu Guohang, Qi Hongji, He Hongbo, et al. 3D mphology of laserinduced bulk damage at 355 1064nm in KDP crystal with different ientations[C]Proceedings of SPIE, LaserInduced Damage in Optical Materials. 2010.

[10] Li Yaguo, Zhu Dexing, Zhang Qinghua, et al. Threshold fluences for conditioning, fatigue and damage effects of DKDP crystals[J]. Optical Materials, 91, 199-204(2019).

[11] Feit M D, Rubenchik A M. Implications of nanoabsber initiats f damage probability curves, pulselength scaling, laser conditioning[C]Proceedings of SPIE, LaserInduced Damage in Optical Materials. 2003: 7482.

[12] DeMange P, Negres R A, Rubenchik A M, et al. The energy coupling efficiency of multiwavelength laser pulses to damage initiating defects in deuterated KH₂PO₄ nonlinear crystals[J]. Journal of Applied Physics, 103, 083122(2008).

[13] Reyné S, Loiseau M, Duchateau G, et al. Toward a better understing of multiwavelength effects on KDP crystals[C]Proceedings of SPIE, Damage to VUV, EUV, XRay Optics II. 2009: 73610Z.

[16] DeMange P P. Laserinduced defect reactions governing the damage perfmance of KDP DKDP[D]. Davis: University of Califnia, 2006: 4959.

[18] Hicks D G, Boehly T R, Eggert J H, et al. Dissociation of liquid silica at high pressures and temperatures[J]. Physical Review Letters, 97, 025502(2006).

[19] Carr C W, Bude J D, DeMange P. Laser-supported solid-state absorption fronts in silica[J]. Physical Review B, 82, 184304(2010).

[20] Li Ting, Zhao Yuanan, Lian Yafei, et al. Optimizing sub-nanosecond laser conditioning of DKDP crystals by varying the temporal shape of the pulse[J]. Optics Express, 29, 35993-36004(2021).

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