[1] B M Walsh. Review of Tm and Ho materials: Spectroscopy and lasers [J]. Laser Phys, 2009, 19(4): 855-856.

[2] N M Fried. High-power laser vaporization of the canine prostate using a 110 W thulium fiber laser at 1.91 μm [J]. Lasers Surg Med, 2005, 36(1): 52-56.

[3] G Wendt-Nordahl, S Huckele, P Honeck, et al.. Systematic evaluation of a recently introduced 2 μm continuous-wave thulium laser for vaporesection of the prostate [J]. J Endourol, 2008, 22(5): 1041-1045.

[4] L H Wang, Z X Wang, B Yang, et al.. Thulium laser urethrotomy for urethral stricture: A preliminary report [J]. Lasers Surg Med, 2010, 42(7): 620-623.

[5] D Theisen-Kunde, S Tedsen, C Doehn, et al.. Comparison between a 1.92 μm fiber laser and a standard HF-dissection device for nephron-sparing kidney resection in a porcine in vivo study [J]. Lasers Med Sci, 2011, 26(4): 509-514.

[6] R Quaden, T Attmann, M Schünke, et al.. Percutaneous aortic valve replacement: Endovascular resection of human aortic valves in situ [J]. J Thorac Cardiovasc Surg, 2008, 135(5): 1081-1086.

[7] H C Ludwig, T Kruschat, T Knobloch, et al.. First experiences with a 2.0-micron near infrared laser system for neuroendoscopy [J]. Neurosurg Rev, 2007, 30(3): 195-201.

[8] E Passacantilli, G Anichini, C P Delfinis, et al.. Use of 2 μm continous-wave thulium laser for surgical removal of a tentorial meningioma: Case report [J]. Photomedicine and Laser Surgery, 2011, 29(6): 437-440.

[9] T Bilici, H O Tabakoqlu, N Topaloqlu, et al.. Modulated and continuous-wave operations of low-power thulium (TmYAP) laser in tissue welding [J]. J Biom Opt, 2010, 15(3): 038001.

[10] R L Blackmon, P B Irby, N M Fried. Comparison of holmiumYAG and thulium fiber laser lithotripsy: Ablation thresholds, ablation rates, and retropulsion effects [J]. J Biom Opt, 2011, 16(7): 071403.

[11] R L Blackmon, P B Irby, N M Fried. HolmiumYAG (λ=2120 nm) versus thulium fiber (λ=1908 nm) laser lithotripsy [J]. Lasers Surg Med, 2010, 42(3): 232-236.

[12] R L Blackmon, P B Irby, N M Fried. Enhanced thulium fiber laser lithotripsy using micro-pulse train modulation [J]. J Biom Opt, 2012, 17(2): 028002.

[13] D Theisen-Kunde, V Ott, R Brinkmann, et al.. Potential of a new cw 2 μm laser scalpel for laparoscopic surgery [J]. Medical Laser Application, 2007, 22(2): 139-145.

[14] J K Jabczynski, W Zendzian, J Kwiatkowski, et al.. Actively Q-switched, diode pumped thulium laser [J]. Laser Phys Lett, 2007, 4(12): 863-867.

[15] A Vogel, V Venugopalan. Mechanisms of pulsed laser ablation of biological tissues [J]. Chem Rev, 2003,103(2): 577-644.

[16] A D Zweig. A thermo-mechanical model for laser ablation [J]. J Appl Phys, 1991, 70(3): 1684-1691.

[17] D Albagli, M Dark, L T Perelman, et al.. Photomechanical basis of laser ablation of biological tissue [J]. Opt Lett, 1994, 19(21): 1684-1686.

[18] M D Keller, J A Stafford, B P Schmidt, et al.. In vitro testing of dual-mode thulium microsurgical laser [C]. SPIE, 2012, 8207: 820711.