Parameter Design and Thermal Effect Numerical Simulation of 10 kW Fiber Connector

Zhang Xi; Li Pingxue; Dong Xueyan; Yang Weixin

doi:10.3788/LOP202158.0114009

[2] Chen F. Application of high power diode laser beam combination technology in ship welding[J]. Ship Science and Technology, 39, 177-179(2017).

[3] Labisz K, Jonda E, Tański T et al. High power diode laser application for metals surface treatment based on wear resistance investigation[J]. Advanced Materials Research, 1036, 482-489(2014). http://www.scientific.net/AMR.1036.482

[4] Melandro F, Giovanardi F, Garofalo M et al. First application of high power diode laser in hepatic resection for hepatocellular carcinoma on cirrhosis[J]. HPB, 20, S469(2018).

[5] Miyazaki H, Hirano Y, Kato S et al. Early experiences of contact laser vaporization of the prostate using the 980 nm high power diode laser for benign prostatic hyperplasia[J]. Luts: Lower Urinary Tract Symptoms, 10, 242-246(2018).

[6] Li M Y, He J. Development situations of high power semiconductor laser for military applications in advanced countries[J]. Semiconductor Technology, 40, 321-327(2015).

[7] Malchus J, Krause V, Rehmann G et al. A 40 kW fiber-coupled diode laser for material processing and pumping applications[J]. Proceedings of SPIE, 9348, 934803(2015).

[8] Su M K, Gao Z Y, Sun H D et al. Study on the loss mechanism of the expand beam fiber connector[J]. Laser Technology, 27, 440-442(2003).

[9] Liu X Y. Research on key technologies of coupling and transmission of medium-wave infrared energy transfer fiber[D]. Beijing: University of Chinese Academy of Sciences, 94-100(2019).

[10] Zhang Y N, Xia J A. A study of thermal distortion of silicon mirror[J]. Chinese Journal of Lasers, 24, 688-692(1997).

[11] Blomster O, Pålsson M, Roos S O et al. Optics performance at high-power levels[J]. Proceedings of SPIE, 6871, 68712B(2008).

[12] Deng Z X, He H B, Song Y X et al. Fabrication and performance evaluation of 1064, 532 nm frequency-doubled antireflection coating for LBO crystal[J]. High Power Laser and Particle Beams, 19, 1325-1328(2007).

[13] Nie S J, Guo J, Shao J F et al. Numerical analysis on the thermal-deformation of semiconductor refrigerated mirror[J]. Acta Optica Sinica, 35, 0114002(2015).

[14] Wu C Z, Zhao J G, Zhao Y M et al. Fused silica refractories[J]. Advanced Ceramics, 28, 13-14, 28(2007).

[15] Blomster O, Plsson M, Roos S O et al. Optics performance at high-power levels[J]. Proceedings of SPIE—The International Society for Optical Engineering, 6871(2008). http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=820510

[16] Huang H C, Wang Q L[M]. Heat transfer finite element analysis, 119-123(2011).

[17] Ma Z Y, Wang P F, Wu Z Q et al. A method for solving the refractive index temperature coefficient empirical formula constants of optical glasses based on 1stOpt[J]. Acta Photonica Sinica, 46, 0616002(2017).

[18] Ouyang H J. Criteria for finite element algorithm of generalized heat conduction equation[J]. Applied Mathematics and Mechanics, 13, 563-571(1992).

[19] Xue T, Zhang X B, Tamma K K. Generalized heat conduction model in moving media emanating from Boltzmann transport equation[J]. International Journal of Heat and Mass Transfer, 119, 148-151(2018). http://smartsearch.nstl.gov.cn/paper_detail.html?id=c5c0de35a52282acc8845eb277ddd43c

[20] Zhang S S[M]. Computational fluid dynamics and its application: principles and applications of CFD software, 5-10(2011).

[21] Guo R H, Shi K, Wang H K et al. Damage in optical components induced by high power semiconductor laser[J]. High Power Laser and Particle Beams, 23, 1177-1181(2011).

[22] Fukai C, Kihara M, Koyama R et al. Investigation of connector performance and damage to optical fiber connectors with dust during high-power transmission[J]. Journal of Lightwave Technology, 36, 3586-3593(2018).