[1] O’Brien D, Graves R M, O’Brien E. StarWars laser technology for gas drilling and completions in the 21st century[C], SPE-56625-MS(1999).

[2] Moavenzadeh F, McGarry F J, Williamson R B. Use of laser and surface active agents for excavation in hard rocks[C], SPE-2240-MS(1968).

[3] Hallada M R, Walter R F, Seiffert S L. High-power laser rock cutting and drilling in mining operations: initial feasibility tests[J]. Proceedings of SPIE, 4065, 614-620(2000).

[4] Mou H W, Xin P H, Luo W. Development status and future development of laser breaking technology[J]. Petrochemical Industry Application, 35, 1-5, 9(2016).

[5] Wang Y J, Shi Y L, Jiang J Y et al. Experimental study on modified specific energy, temperature field and mechanical properties of Xuzhou limestone irradiated by fiber laser[J]. Heat and Mass Transfer, 56, 161-173(2020).

[6] Bazargan M, Madani A, Sharifi H et al. Utilisation of lasers in petroleum drilling industry[C], IPTC-17019-MS(2013).

[7] Shi B Q, Xue Q L, Tang W Q et al. Research prospect of laser drilling technology[J]. Foreign Oilfield Engineering, 26, 42-44(2010).

[8] Buckstegge F, Michel T, Zimmermann M et al. Advanced rock drilling technologies using high laser power[J]. Physics Procedia, 83, 336-343(2016).

[9] Ezzedine S, Rubenchik S, Yamamoto R. Laser-enhanced drilling and laser-assisted fracturing for subsurface EGS applications[J]. GRC Transactions, 36, 287-290(2012).

[10] Zheng Y L, Sun T W. A method to derive the dielectric loss factor of minerals from microwave heating rate tests[J]. Measurement, 171, 108788(2021).

[11] Zheng Y L, Ma Z J, Yang S Q et al. A microwave fracturability index (MFI) of hard igneous rocks[J]. International Journal of Rock Mechanics and Mining Sciences, 138, 104566(2021).

[12] Ciccu R, Grosso B. Improvement of disc cutter performance by water jet assistance[J]. Rock Mechanics and Rock Engineering, 47, 733-744(2014).

[13] Gao H, Gong X P, Cheng X Y et al. Reasonable arrangement of high-level orientation extraction boreholes of pressure relief gas in overlying strata under high-strength fully mechanized mining in low-gas-thick-coal seam[J]. Shock and Vibration, 2021, 5574917(2021).

[14] Liu B L, Pan J Z, Xie S Y. On the research development of rock fragmentation and its prospect[J]. China Tungsten Industry, 26, 15-19(2011).

[15] Ketata C, Satish M, Islam M R. Knowledge selection for laser drilling in the oil and gas industry[C], 377-382(2005).

[16] Olaleye B M. A review of light amplification by stimulated emission of radiation in oil and gas well drilling[J]. Mining Science and Technology (China), 20, 752-757(2010).

[17] Jamali S, Wittig V, Börner J et al. Application of high powered Laser Technology to alter hard rock properties towards lower strength materials for more efficient drilling, mining, and Geothermal Energy production[J]. Geomechanics for Energy and the Environment, 20, 100112(2019).

[18] Yao B Q, Yang K, Mi S Y et al. Research progress of high-power Ho: YAG lasers and its application for pumping mid-far-infrared nonlinear frequency conversion in ZGP, BGSe and CdSe crystals[J]. Chinese Journal of Lasers, 49, 0101002(2022).

[19] Zhang N L, Jing H Q, Yuan Q H et al. High power 1060 nm tapered laser[J]. Acta Optica Sinica, 42, 0514002(2022).

[20] Chen Y L, Zhu X L. Burst-mode laser technology with high repetition frequency and high pulse energy output[J]. Laser & Optoelectronics Progress, 58, 1700003(2021).

[21] Pooniwala S. Lasers: the next bit[C], SPE-104223-MS(2006).

[22] Jurewicz B R. Rock excavation with laser assistance[J]. International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, 13, 207-219(1976).

[23] Graves R M, Araya A, Gahan B et al. Comparison of specific energy between drilling with high power lasers and other drilling methods[C], SPE-77627-MS(2002).

[24] Bakhtbidar M, Ghorbankhani M, Alimohammadi M et al. Application of laser technology for oil and gas wells perforation[C], SPE-148570-MS(2011).

[25] Bharatish A, Kumar B K, Rajath R et al. Investigation of effect of CO2 laser parameters on drilling characteristics of rocks encountered during mining[J]. Journal of King Saud University - Engineering Sciences, 31, 395-401(2019).

[26] Wang Y J, Jiang J Y, Darkwa J et al. Experimental study of thermal fracturing of hot dry rock irradiated by moving laser beam: temperature, efficiency and porosity[J]. Renewable Energy, 160, 803-816(2020).

[27] Gahan B C, Parker R A, Batarseh S et al. Laser drilling: determination of energy required to remove rock[C], SPE-71466-MS(2001).

[28] Xu Z, Reed C B, Konercki G et al. Specific energy for pulsed laser rock drilling[J]. Journal of Laser Applications, 15, 25-30(2003).

[29] Yan F, Gu Y F, Wang Y J et al. Study on the interaction mechanism between laser and rock during perforation[J]. Optics & Laser Technology, 54, 303-308(2013).

[30] Li Q, Zhai Y L, Huang Z Q et al. Research on crack cracking mechanism and damage evaluation method of granite under laser action[J]. Optics Communications, 506, 127556(2022).

[31] Xu Z Y, Reed C B, Parker R A et al. Laser spallation of rocks for oil well drilling[J]. ICALEO, 1803(2004).

[32] Batarseh S, Gahan B C, Graves R M et al. Well perforation using high-power lasers[C], SPE-84418-MS(2003).

[33] Yang X F, Zhou J H, Zhou X et al. Investigation on the rock temperature in fiber laser perforating[J]. Optik, 219, 165104(2020).

[34] Yang L Z, Wen G J, Wang Y D et al. Theoretical analysis and experimental research on breaking process of laser drilling in coal and rock[J]. Coal Geology & Exploration, 44, 168-172(2016).

[35] Xu Z, Yamashita Y, Reed C. Modeling of laser spallation drilling of rocks for gas and oil well drilling[C], SPE-95746-MS(2005).

[36] Tang H M[M]. Mineral petrology, 82-84(2014).

[37] Hu M X, Bai Y, Chen H W et al. Engineering characteristics of laser perforation with a high power fiber laser in oil and gas wells[J]. Infrared Physics & Technology, 92, 103-108(2018).

[38] Li M Y, Han B, Zhang S Y et al. Study on laser assisted rock breaking law and mechanical properties[J]. Applied Laser, 35, 363-368(2015).

[39] Li M Y, Han B, Zhang S Y et al. Experimental study on rock fragment assisted by laser technology[J]. Drilling ＆ Production Technology, 38, 1-3, 9(2015).

[40] Homand-Etienne F, Houpert R. Thermally induced microcracking in granites: characterization and analysis[J]. International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, 26, 125-134(1989).

[41] Wang J, Wang C M, Meng X X et al. Interaction between laser-induced plasma/vapor and arc plasma during fiber laser-MIG hybrid welding[J]. Journal of Mechanical Science and Technology, 25, 1529-1533(2011).

[42] Su R, Liu G. Mechanism and influencing factors of laser rock fragmenting[J]. West-China Exploration Engineering, 25, 1-6(2013).

[43] Guan B, Li S B, Zhang L G et al. Review on influencing factors of laser rock drilling technology[J]. Laser & Optoelectronics Progress, 57, 030003(2020).

[44] Zhang W L, Huang Z Q, Kang M Q et al. Research on multivariate nonlinear regression model of specific energy of rock with laser drilling based on response surface methodology[J]. Optics Communications, 489, 126865(2021).

[45] Boutinguiza M, Pou J, Lusquiños F et al. Drilling of slate tiles by CO2 laser[J]. Journal of Materials Processing Technology, 159, 83-90(2005).

[46] Ahmadi M, Erfan M R, Torkamany M J et al. The effect of interaction time and saturation of rock on specific energy in ND: YAG laser perforating[J]. Optics & Laser Technology, 43, 226-231(2011).

[47] Rui F X, Zhao G F. Experimental and numerical investigation of laser-induced rock damage and the implications for laser-assisted rock cutting[J]. International Journal of Rock Mechanics and Mining Sciences, 139, 104653(2021).

[48] Ndeda R, Sebusang S E M, Marumo R et al. On the role of laser pulses on spallation of granite[J]. Lasers in Manufacturing and Materials Processing, 4, 60-75(2017).

[49] Deng R, Liu J P, Kang M Q et al. Simulation and experimental research of laser scanning breaking granite[J]. Optics Communications, 502, 127403(2022).

[50] Chen K, Huang Z Q, Deng R et al. Research on the temperature and stress fields of elliptical laser irradiated sandstone, and drilling with the elliptical laser-assisted mechanical bit[J]. Journal of Petroleum Science and Engineering, 211, 110147(2022).

[51] Erfan M R, Shahriar K, Sharifzadeh M et al. Moving perforation of rocks using long pulse Nd: YAG laser[J]. Optics and Lasers in Engineering, 94, 12-16(2017).

[52] Deng R, Zhang W T, Kang M Q et al. Simulation analysis and experimental research on coupling field of mobile linear laser rock breaking[J]. Laser & Infrared, 49, 535-542(2019).

[53] Xi D Y, Xu S L[M]. Foundations of rock physics, 340-345(2012).

[54] Kobayashi T, Nakamura M, Kubo S et al. Drilling a 2-inch in diameter hole in granites submerged in water by Co2 lasers[C], SPE-119914-MS(2009).

[55] Xu Z, Reed C, Parker R A et al. Laser rock drilling by a super-pulsed CO2 laser beam[J]. ICALEO, 160291(2002).

[56] Xu Z, Reed C, Graves R M et al. Rock perforation by pulsed Nd: YAG laser[J]. ICALEO, 1406(2004).

[57] Ahmadi M, Erfan M R, Torkamany M J et al. The effect of confining pressure on specific energy in Nd: YAG laser perforating of rock[J]. Optics & Laser Technology, 44, 57-62(2012).

[58] Rad A G, Bazargan M, Koohian A et al. The effects of carbon dioxide laser irradiation on drilling of limestone included crude oil[J]. Journal of Modern Physics, 5, 248-256(2014).

[59] Dini A, Ahmadi M. Numerical modeling of saturation type and lateral pressure influences on thermo-mechanical stresses caused by laser drilling in granite and limestone[J]. International Journal of Geo-Engineering, 9, 1-12(2018).

[60] Ohtani K, Numata D, Takayama K et al. Experimental study of underwater rock drilling using a pulsed Ho: YAG laser-induced jets[J]. Shock Waves, 19, 403-412(2009).

[61] Shi X M, Duan Y L, Han B et al. Enhanced rock breakage by pulsed laser induced cavitation bubbles: preliminary experimental observations and conclusions[J]. Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 6, 25(2020).

[62] Li M Y, Han B, Zhang S Y et al. Numerical simulation and experimental investigation on fracture mechanism of granite by laser irradiation[J]. Optics & Laser Technology, 106, 52-60(2018).

[63] Ndeda R A, Sebusang S E, Marumo R et al. Numerical model of laser spallation drilling of inhomogeneous rock[J]. IFAC-Papers Online, 50, 43-46(2017).

[64] Agha K R, Belhaj H A, Mustafiz S et al. Numerical investigation of the prospects of high energy laser in drilling oil and gas wells[J]. Petroleum Science and Technology, 22, 1173-1186(2004).