[1] Feng SONG, Mingjun CHEN, Xuan CHEN et al. Review of laser cleaning technology(invited). Infrared and Laser Engineering, 52, 20220835(2023).

[2] Ze TIAN, Zhenglong LEI, Xi CHEN et al. Nanosecond pulsed fiber laser cleaning of natural marine micro-biofoulings from the surface of aluminum alloy. Journal of Cleaner Production, 244, 118724(2020).

[3] S GENNA, L CLAUDIO, M EMANUELE et al. Surface cleaning of 34CrMo4 steel pipes by using pulsed fibre laser. International Journal of Advanced Manufacturing Technology, 125, 231-244(2023).

[4] Jiawei XU, Chenwei WU, Xiang ZHANG et al. Influence of parameters of a laser cleaning soil rust layer on the surface of ceramic artifacts. Applied Optics, 58, 2725-2730(2019).

[5] Xiaozhu XIE, Qingpeng HUANG, Jiangyou LONG et al. A new monitoring method for metal rust removal states in pulsed laser derusting via acoustic emission techniques. Journal of Materials Processing Tech, 275, 116321(2019).

[6] S ZHANG, L WU, J TANG et al. Optical-field-induced surface nanobumps in near-infrared laser direct cleaning of nanoparticles on silicon. Optics Letters, 47, 5638-5641(2022).

[7] P GÁDOROS, A CZITROVSZKY, A NAGY et al. Laser cleaning and Raman analysis of the contamination on the optical window of a rubidium vapor cell. Scientific Reports, 12, 15530(2022).

[8] S JELVANI, M H MALEKI, S KHADIR et al. Laser cleaning on bronze artefacts by the XeCl laser. Optik (Stuttgart), 242, 167316(2021).

[9] Yayun YE, Xiaodong YUAN, Xia XIANG et al. Clearance of SiO₂ particles on K9 glass surfaces by means of laser shockwave. Laser Technology, 35, 245-248(2011).

[10] Kai LIU, Weixing FAN, Pingqiu WANG et al. Study on the state change characteristics of cleaning micro-nano particles by laser plasma method. Laser Technology, 45, 405-410(2021).

[11] Yong LI, Yingxiong QIN. Edge cleaning processing of a-Si∶H thin film solar cell with 1 064 nm MOPA laser. Applied Laser, 39, 275-279(2019).

[12] K MIKAMI, T SUGITA, M AZUMI et al. Effect of crystal axis in temperature dependence of laser-induced damage thresholds by nanosecond near-infrared laser. Optics Communications, 353, 117-121(2015).

[13] Chao SHEN, Xiangai CHENG, Ye TIAN et al. Experimental and computational study of damage process induced by 1 064 nm nanosecond laser pulse on the exit surface of fused silica. Acta Physica Sinica, 65, 143-153(2016).

[14] Peng YAO, Wang WEI, Chuanzhen HUANG et al. Indentation crack initiation and ductile to brittle transition behavior of fused silica. Advanced Materials Research, 797, 667-672(2013).

[15] K BOYER, R C MALONE, R L MCCRORY et al. Indications of strongly flux-limited electron thermal conduction in laser target experiments. The Review of Laser Engineering, 2, 283-291(1974).

[16] Quan YI, Xianzhi SUN, Jianchang YANG et al. Simulation research on the interaction between high-energy laser and K9 spectralite. Laser & Infrared, 47, 808-812(2017).

[17] Kunyan DING, Changtao HE, Zhigang LIU et al. Research on particulate contamination induced laser damage of optical material based on integrated spectroscopy. Spectroscopy and Spectral Analysis, 43, 1234-1241(2023).

[18] K G WATKINS, C CURRAN, J LEE. Two new mechanisms for laser cleaning using Nd: YAG sources. Journal of Cultural Heritage, 4, 59-64(2003).

[19] S N RAMAKRISHNA, P C NALAM, L Y CLASOHM et al. Study of adhesion and friction properties on a nanoparticle gradient surface: transition from JKR to DMT contact mechanics. Langmuir the Acs Journal of Surfaces & Colloids, 29, 175-182(2013).

[20] Yanqun TONG, Jiangyi LU, Yunxia YE et al. Research on laser cleaning of micro-particles on glass surface(invited). Infrared and Laser Engineering, 52, 20220782(2023).

[21] Duohui HUANG, Huafeng LUO, Di YUAN et al. First principles study of thermodynamic properties of cubic CeO₂. Chinese Journal of Computational Physics, 28, 456-462(2011).

[22] Ju LUO, Guoying FENG, Jinghua HAN et al. Thermodynamics of laser plasma removal of micro and nano-particles. Acta Physica Sinica, 69, 0842201(2020).