Distribution characteristics of metal film eruption induced by nanosecond pulse laser

Bin Ma; Jiaqi Han; Ke Wang; Qiushi Huang; Hongfei Jiao; Shuang Guan

doi:10.3788/IRLA20210036

[1] R Guirlet, D Villegas, T Parisota, et al. Anomalous transport of light and heavy impurities in Tore Supra sawtooth-free ohmic plasmas. Nuclear Fusion, 49, 055007(2009).

[2] K Zhang, Z Y Cui, P Sun, et al. Investigation of impurity transport using laser blow-off technique in the HL-2A Ohmic and ECRH plasmas. Chinese Physics B, 25, 065202(2016).

[3] S G Demos, R A Negres, R N Raman, et al. Relaxation dynamics of nanosecond laser superheated material in dielectrics. Optica, 2, 765-772(2015).

[4] A Salleo, S T Taylor, M C Martin, et al. Laser-driven formation of a high-pressure phase in amorphous silica. Nature Materials, 2, 796-800(2003).

[5] S Papernov, A W Schmid. Two mechanisms of crater formation in ultraviolet-pulsed-laser irradiated SiO₂ thin films with artificial defects. Journal of Applied Physics, 97, 114906(2005).

[6] S Rui, M Z Xiang, J Chen, et al. Molecular dynamics simulation of shock induced ejection on fused silica surface. Journal of Applied Physics, 115, 27708(2014).

[7] J Y Natoli, L Gallais, H Akhouayri, et al. Laser-induced damage of materials in bulk, thin-film, and liquid forms. Applied Optics, 41, 3156-3166(2002).

[8] A A Manenkov. Fundamental mechanisms of laser-induced damage in optical materials: today’s state of understanding and problems. Optical Engineering, 53, 010901(2014).

[9] Ma B, Zhang Y Y, Ma H P, et al. Highly sensitive compact refractive index sens based on phaseshifted sidewall Bragg gratings in slot waveguide [J]. Applied Optics, 2014, 53(1): 96103.

[10] M L Lu, B Ma, G D Zhan, et al. Effect of etching on the laser-induced damage properties of artificial defects under 1064 nm laser irradiation. Optical Engineering, 53, 122505(2014).

[11] X B Cheng, J L Zhang, T Ding, et al. The effect of an electric field on the thermomechanical damage of nodular defects in dielectric multilayer coatings irradiated by nanosecond laser pulses. Light: Science & Applications, 2, e80(2013).

[12] L Gallais, J Y Natoli, C Amra. Statistical study of single and multiple pulse laser-induced damage in glasses. Optics Express, 10, 1465-1474(2002).

[13] J Bude, P Miller, S Baxamusa, et al. High fluence laser damage precursors and their mitigation in fused silica. Optics Express, 22, 5839-5851(2014).

[14] R N Raman, R A Negres, S G Demos. Kinetics of ejected particles during breakdown in fused silica by nanosecond laser pulses. Applied Physics Letter, 98, 051901(2011).

[15] S G Demos, R A Negres, R N Raman, et al. Material response during nanosecond laser induced breakdown inside of the exit surface of fused silica. Laser & Photonics Reviews, 7, 444-452(2013).

[16] N Zhang, X Zhu, J Yang, et al. Time-resolved shadowgraphs of material ejection in intense femtosecond laser ablation of aluminum. Physical Review Letters, 99, 167602(2007).

[17] Goldstein J I, Newbury D E, Michael J R, et al. Scanning Electron Microscopy XRay Microanalysis [M]. US: Springer, 2018.

[18] J H Park, J Seo, S Park, et al. Efficient CH₃NH₃PbI₃ perovskite solar cells employing nanostructured p-type NiO electrode formed by a pulsed laser deposition. Advanced Materials, 27, 4013-4019(2015).