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All-fiber-integrated Yb:YAG-derived silica fiber laser generating 6 W output power
References. View by:. Article Order. Year. Author. Publication. M. N. Zervas and C. A. Codemard, “High power fiber lasers: a review,” IEEE J. Sel. Top. Quantum Electron. 20(5), 219–241 (2014). [Crossref] . D. J. Richardson, J. Nilsson, and W. A. Clarkson, “High power fiber lasers: current status and future perspectives [Invited],” J. Opt. Soc. Am. B 27(11), B63–B92 (2010). [Crossref] . B. Shiner, “The impact of fiber laser technology on the world wide material processing market,” CLEO: Applications and Technology (2013). . H. Yu, X. Wang, R. Tao, P. Zhou, and J. Chen, “1.5 kW, near-diffraction-limited, high-efficiency, single-end-pumped all-fiber-integrated laser oscillator,” Appl. Opt. 53(34), 8055–8059 (2014). [Crossref] [PubMed] . H. Yu, H. Zhang, H. Lv, X. Wang, J. Leng, H. Xiao, S. Guo, P. Zhou, X. Xu, and J. Chen, “3.15 kW direct diode-pumped near diffraction-limited all-fiber-integrated fiber laser,” Appl. Opt. 54(14), 4556–4560 (2015). [Crossref] [PubMed] . J. W. Dawson, M. J. Messerly, R. J. Beach, M. Y. Shverdin, E. A. Stappaerts, A. K. Sridharan, P. H. Pax, J. E. Heebner, C. W. Siders, and C. P. J. Barty, “Analysis of the scalability of diffraction-limited fiber lasers and amplifiers to high average power,” Opt. Express 16(17), 13240–13266 (2008). [Crossref] [PubMed] . J. Ballato and P. Dragic, “Glass: the carrier of light - a brief history of optical fiber,” Int. J. Appl. Glass Sci. 7(4), 413–422 (2016). [Crossref] . J. Ballato and P. Dragic, “Rethinking optical fiber: new demands, old glasses,” J. Am. Ceram. Soc. 96(9), 2675–2692 (2013). [Crossref] . Y. M. Zhang, W. W. Wang, J. Li, X. S. Xiao, Z. J. Ma, H. T. Guo, G. P. Dong, S. H. Xu, and J. R. Qiu, “Multi-component yttrium aluminosilicate (YAS) fiber prepared by melt-in-tube method for stable single-frequency laser,” J. Am. Ceram. Soc. 00, 16072 (2018). [Crossref] . S. Zheng, J. Li, C. Yu, Q. Zhou, and D. Chen, “Preparation and characterizations of Nd:YAG ceramic derived silica fibers drawn by post-feeding molten core approach,” Opt. Express 24(21), 24248–24254 (2016). [Crossref] [PubMed] . Y. M. Zhang, G. Q. Qian, X. S. Xiao, X. L. Tian, Z. Chen, J. P. Zhong, Z. J. Ma, H. T. Guo, S. H. Xu, Z. M. Yang, and J. R. Qiu, “A yttrium aluminosilicate glass fiber with graded refractive index fabricated by melt-in-tube method,” J. Am. Ceram. Soc. 101(4), 1616–1622 (2018). [Crossref] . P. D. Dragic, Y. S. Liu, J. Ballato, T. Hawkins, and P. Foy, “YAG-derived fiber for high-power narrow-linewidth fiber lasers,” Fiber Lasers IX: Technology, Systems, and Applications 8237(14), 82371E (2012). [Crossref] . J. Ballato, T. Hawkins, P. Foy, B. Kokuoz, R. Stolen, C. McMillen, M. Daw, Z. Su, T. M. Tritt, M. Dubinskii, J. Zhang, T. Sanamyan, and M. J. Matthewson, “On the fabrication of all-glass optical fibers from crystals,” J. Appl. Phys. 105(5), 53110 (2009). [Crossref] . P. D. Dragic, J. Ballato, T. Hawkins, and P. Foy, “Feasibility study of Yb:YAG-derived silicate fibers with large Yb content as gain media,” Opt. Mater. 34(8), 1294–1298 (2012). [Crossref] . P. Dragic, P. C. Law, J. Ballato, T. Hawkins, and P. Foy, “Brillouin spectroscopy of YAG-derived optical fibers,” Opt. Express 18(10), 10055–10067 (2010). [Crossref] [PubMed] . S. P. Zheng, J. Li, C. L. Yu, Q. L. Zhou, L. L. Hu, and D. P. Chen, “Preparation and characterizations of Yb:YAG-derived silica fibers drawn by on-line feeding molten core approach,” Ceram. Int. 43(7), 5837–5841 (2017). [Crossref] . L. Li, M. Wang, T. Liu, J. Leng, P. Zhou, and J. Chen, “High-power, cladding-pumped all-fiber laser with selective transverse mode generation property,” Appl. Opt. 56(17), 4967–4970 (2017). [Crossref] [PubMed] . K. Lyytikainen, J. Canning, J. Digweed, and J. Zagari, “Geometry control of air-silica structured optical fibres using pressurisation,” International Microwave & Optoelectronics Conference IEEE, 1001–1005 (2003). . Y. C. Huang, J. S. Wang, Y. K. Lu, W. K. Liu, K. Y. Huang, S. L. Huang, and W. H. Cheng, “Preform fabrication and fiber drawing of 300 nm broadband Cr-doped fibers,” Opt. Express 15(22), 14382–14388 (2007). [Crossref] [PubMed] . T. L. Cheng, M. S. Liao, X. J. Xue, J. Li, W. Q. Gao, X. Li, D. P. Chen, S. P. Zheng, Y. B. Pan, T. Suzuki, and Y. Ohishi, “A silica optical fiber doped with yttrium aluminosilicate nanoparticles for supercontinuum generation,” Opt. Mater. 53, 39–43 (2016). [Crossref] . X. Y. Ji, S. M. Lei, S. Y. Yu, H. Y. Cheng, W. J. Liu, N. Poilvert, Y. H. Xiong, I. Dabo, S. E. Mohney, J. V. Badding, and V. Gopalan, “Single-crystal silicon optical fiber by direct laser crystallization,” ACS Photonics 4(1), 85–92 (2017). [Crossref] . C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] . C. Yang, D. Chen, S. Xu, H. Deng, W. Lin, Q. Zhao, Y. Zhang, K. Zhou, Z. Feng, Q. Qian, and Z. Yang, “Short all Tm3+-doped germanate glass fiber MOPA single-frequency laser at 1.95 μm,” Opt. Express 24(10), 10956–10961 (2016). [Crossref] [PubMed] . C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] . 2018 (2). Y. M. Zhang, W. W. Wang, J. Li, X. S. Xiao, Z. J. Ma, H. T. Guo, G. P. Dong, S. H. Xu, and J. R. Qiu, “Multi-component yttrium aluminosilicate (YAS) fiber prepared by melt-in-tube method for stable single-frequency laser,” J. Am. Ceram. Soc. 00, 16072 (2018). [Crossref] Y. M. Zhang, G. Q. Qian, X. S. Xiao, X. L. Tian, Z. Chen, J. P. Zhong, Z. J. Ma, H. T. Guo, S. H. Xu, Z. M. Yang, and J. R. Qiu, “A yttrium aluminosilicate glass fiber with graded refractive index fabricated by melt-in-tube method,” J. Am. Ceram. Soc. 101(4), 1616–1622 (2018). [Crossref] 2017 (3). S. P. Zheng, J. Li, C. L. Yu, Q. L. Zhou, L. L. Hu, and D. P. Chen, “Preparation and characterizations of Yb:YAG-derived silica fibers drawn by on-line feeding molten core approach,” Ceram. Int. 43(7), 5837–5841 (2017). [Crossref] X. Y. Ji, S. M. Lei, S. Y. Yu, H. Y. Cheng, W. J. Liu, N. Poilvert, Y. H. Xiong, I. Dabo, S. E. Mohney, J. V. Badding, and V. Gopalan, “Single-crystal silicon optical fiber by direct laser crystallization,” ACS Photonics 4(1), 85–92 (2017). [Crossref] L. Li, M. Wang, T. Liu, J. Leng, P. Zhou, and J. Chen, “High-power, cladding-pumped all-fiber laser with selective transverse mode generation property,” Appl. Opt. 56(17), 4967–4970 (2017). [Crossref] [PubMed] 2016 (4). C. Yang, D. Chen, S. Xu, H. Deng, W. Lin, Q. Zhao, Y. Zhang, K. Zhou, Z. Feng, Q. Qian, and Z. Yang, “Short all Tm3+-doped germanate glass fiber MOPA single-frequency laser at 1.95 μm,” Opt. Express 24(10), 10956–10961 (2016). [Crossref] [PubMed] S. Zheng, J. Li, C. Yu, Q. Zhou, and D. Chen, “Preparation and characterizations of Nd:YAG ceramic derived silica fibers drawn by post-feeding molten core approach,” Opt. Express 24(21), 24248–24254 (2016). [Crossref] [PubMed] T. L. Cheng, M. S. Liao, X. J. Xue, J. Li, W. Q. Gao, X. Li, D. P. Chen, S. P. Zheng, Y. B. Pan, T. Suzuki, and Y. Ohishi, “A silica optical fiber doped with yttrium aluminosilicate nanoparticles for supercontinuum generation,” Opt. Mater. 53, 39–43 (2016). [Crossref] J. Ballato and P. Dragic, “Glass: the carrier of light - a brief history of optical fiber,” Int. J. Appl. Glass Sci. 7(4), 413–422 (2016). [Crossref] 2015 (1). H. Yu, H. Zhang, H. Lv, X. Wang, J. Leng, H. Xiao, S. Guo, P. Zhou, X. Xu, and J. Chen, “3.15 kW direct diode-pumped near diffraction-limited all-fiber-integrated fiber laser,” Appl. Opt. 54(14), 4556–4560 (2015). [Crossref] [PubMed] 2014 (2). H. Yu, X. Wang, R. Tao, P. Zhou, and J. Chen, “1.5 kW, near-diffraction-limited, high-efficiency, single-end-pumped all-fiber-integrated laser oscillator,” Appl. Opt. 53(34), 8055–8059 (2014). [Crossref] [PubMed] M. N. Zervas and C. A. Codemard, “High power fiber lasers: a review,” IEEE J. Sel. Top. Quantum Electron. 20(5), 219–241 (2014). [Crossref] 2013 (1). J. Ballato and P. Dragic, “Rethinking optical fiber: new demands, old glasses,” J. Am. Ceram. Soc. 96(9), 2675–2692 (2013). [Crossref] 2012 (2). P. D. Dragic, J. Ballato, T. Hawkins, and P. Foy, “Feasibility study of Yb:YAG-derived silicate fibers with large Yb content as gain media,” Opt. Mater. 34(8), 1294–1298 (2012). [Crossref] P. D. Dragic, Y. S. Liu, J. Ballato, T. Hawkins, and P. Foy, “YAG-derived fiber for high-power narrow-linewidth fiber lasers,” Fiber Lasers IX: Technology, Systems, and Applications 8237(14), 82371E (2012). [Crossref] 2010 (2). P. Dragic, P. C. Law, J. Ballato, T. Hawkins, and P. Foy, “Brillouin spectroscopy of YAG-derived optical fibers,” Opt. Express 18(10), 10055–10067 (2010). [Crossref] [PubMed] D. J. Richardson, J. Nilsson, and W. A. Clarkson, “High power fiber lasers: current status and future perspectives [Invited],” J. Opt. Soc. Am. B 27(11), B63–B92 (2010). [Crossref] 2009 (3). C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] J. Ballato, T. Hawkins, P. Foy, B. Kokuoz, R. Stolen, C. McMillen, M. Daw, Z. Su, T. M. Tritt, M. Dubinskii, J. Zhang, T. Sanamyan, and M. J. Matthewson, “On the fabrication of all-glass optical fibers from crystals,” J. Appl. Phys. 105(5), 53110 (2009). [Crossref] 2008 (1). J. W. Dawson, M. J. Messerly, R. J. Beach, M. Y. Shverdin, E. A. Stappaerts, A. K. Sridharan, P. H. Pax, J. E. Heebner, C. W. Siders, and C. P. J. Barty, “Analysis of the scalability of diffraction-limited fiber lasers and amplifiers to high average power,” Opt. Express 16(17), 13240–13266 (2008). [Crossref] [PubMed] 2007 (1). Y. C. Huang, J. S. Wang, Y. K. Lu, W. K. Liu, K. Y. Huang, S. L. Huang, and W. H. Cheng, “Preform fabrication and fiber drawing of 300 nm broadband Cr-doped fibers,” Opt. Express 15(22), 14382–14388 (2007). [Crossref] [PubMed] Badding, J. V.. X. Y. Ji, S. M. Lei, S. Y. Yu, H. Y. Cheng, W. J. Liu, N. Poilvert, Y. H. Xiong, I. Dabo, S. E. Mohney, J. V. Badding, and V. Gopalan, “Single-crystal silicon optical fiber by direct laser crystallization,” ACS Photonics 4(1), 85–92 (2017). [Crossref] Ballato, J.. J. Ballato and P. Dragic, “Glass: the carrier of light - a brief history of optical fiber,” Int. J. Appl. Glass Sci. 7(4), 413–422 (2016). [Crossref] J. Ballato and P. Dragic, “Rethinking optical fiber: new demands, old glasses,” J. Am. Ceram. Soc. 96(9), 2675–2692 (2013). [Crossref] P. D. Dragic, Y. S. Liu, J. Ballato, T. Hawkins, and P. Foy, “YAG-derived fiber for high-power narrow-linewidth fiber lasers,” Fiber Lasers IX: Technology, Systems, and Applications 8237(14), 82371E (2012). [Crossref] P. D. Dragic, J. Ballato, T. Hawkins, and P. Foy, “Feasibility study of Yb:YAG-derived silicate fibers with large Yb content as gain media,” Opt. Mater. 34(8), 1294–1298 (2012). [Crossref] P. Dragic, P. C. Law, J. Ballato, T. Hawkins, and P. Foy, “Brillouin spectroscopy of YAG-derived optical fibers,” Opt. Express 18(10), 10055–10067 (2010). [Crossref] [PubMed] J. Ballato, T. Hawkins, P. Foy, B. Kokuoz, R. Stolen, C. McMillen, M. Daw, Z. Su, T. M. Tritt, M. Dubinskii, J. Zhang, T. Sanamyan, and M. J. Matthewson, “On the fabrication of all-glass optical fibers from crystals,” J. Appl. Phys. 105(5), 53110 (2009). [Crossref] Barty, C. P. J.. J. W. Dawson, M. J. Messerly, R. J. Beach, M. Y. Shverdin, E. A. Stappaerts, A. K. Sridharan, P. H. Pax, J. E. Heebner, C. W. Siders, and C. P. J. Barty, “Analysis of the scalability of diffraction-limited fiber lasers and amplifiers to high average power,” Opt. Express 16(17), 13240–13266 (2008). [Crossref] [PubMed] Beach, R. J.. J. W. Dawson, M. J. Messerly, R. J. Beach, M. Y. Shverdin, E. A. Stappaerts, A. K. Sridharan, P. H. Pax, J. E. Heebner, C. W. Siders, and C. P. J. Barty, “Analysis of the scalability of diffraction-limited fiber lasers and amplifiers to high average power,” Opt. Express 16(17), 13240–13266 (2008). [Crossref] [PubMed] Chen, D.. C. Yang, D. Chen, S. Xu, H. Deng, W. Lin, Q. Zhao, Y. Zhang, K. Zhou, Z. Feng, Q. Qian, and Z. Yang, “Short all Tm3+-doped germanate glass fiber MOPA single-frequency laser at 1.95 μm,” Opt. Express 24(10), 10956–10961 (2016). [Crossref] [PubMed] S. Zheng, J. Li, C. Yu, Q. Zhou, and D. Chen, “Preparation and characterizations of Nd:YAG ceramic derived silica fibers drawn by post-feeding molten core approach,” Opt. Express 24(21), 24248–24254 (2016). [Crossref] [PubMed] Chen, D. P.. S. P. Zheng, J. Li, C. L. Yu, Q. L. Zhou, L. L. Hu, and D. P. Chen, “Preparation and characterizations of Yb:YAG-derived silica fibers drawn by on-line feeding molten core approach,” Ceram. Int. 43(7), 5837–5841 (2017). [Crossref] T. L. Cheng, M. S. Liao, X. J. Xue, J. Li, W. Q. Gao, X. Li, D. P. Chen, S. P. Zheng, Y. B. Pan, T. Suzuki, and Y. Ohishi, “A silica optical fiber doped with yttrium aluminosilicate nanoparticles for supercontinuum generation,” Opt. Mater. 53, 39–43 (2016). [Crossref] Chen, J.. L. Li, M. Wang, T. Liu, J. Leng, P. Zhou, and J. Chen, “High-power, cladding-pumped all-fiber laser with selective transverse mode generation property,” Appl. Opt. 56(17), 4967–4970 (2017). [Crossref] [PubMed] H. Yu, H. Zhang, H. Lv, X. Wang, J. Leng, H. Xiao, S. Guo, P. Zhou, X. Xu, and J. Chen, “3.15 kW direct diode-pumped near diffraction-limited all-fiber-integrated fiber laser,” Appl. Opt. 54(14), 4556–4560 (2015). [Crossref] [PubMed] H. Yu, X. Wang, R. Tao, P. Zhou, and J. Chen, “1.5 kW, near-diffraction-limited, high-efficiency, single-end-pumped all-fiber-integrated laser oscillator,” Appl. Opt. 53(34), 8055–8059 (2014). [Crossref] [PubMed] Chen, Z.. Y. M. Zhang, G. Q. Qian, X. S. Xiao, X. L. Tian, Z. Chen, J. P. Zhong, Z. J. Ma, H. T. Guo, S. H. Xu, Z. M. Yang, and J. R. Qiu, “A yttrium aluminosilicate glass fiber with graded refractive index fabricated by melt-in-tube method,” J. Am. Ceram. Soc. 101(4), 1616–1622 (2018). [Crossref] Cheng, C. T.. C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] Cheng, H. Y.. X. Y. Ji, S. M. Lei, S. Y. Yu, H. Y. Cheng, W. J. Liu, N. Poilvert, Y. H. Xiong, I. Dabo, S. E. Mohney, J. V. Badding, and V. Gopalan, “Single-crystal silicon optical fiber by direct laser crystallization,” ACS Photonics 4(1), 85–92 (2017). [Crossref] Cheng, T. L.. T. L. Cheng, M. S. Liao, X. J. Xue, J. Li, W. Q. Gao, X. Li, D. P. Chen, S. P. Zheng, Y. B. Pan, T. Suzuki, and Y. Ohishi, “A silica optical fiber doped with yttrium aluminosilicate nanoparticles for supercontinuum generation,” Opt. Mater. 53, 39–43 (2016). [Crossref] Cheng, W. H.. Y. C. Huang, J. S. Wang, Y. K. Lu, W. K. Liu, K. Y. Huang, S. L. Huang, and W. H. Cheng, “Preform fabrication and fiber drawing of 300 nm broadband Cr-doped fibers,” Opt. Express 15(22), 14382–14388 (2007). [Crossref] [PubMed] Clarkson, W. A.. D. J. Richardson, J. Nilsson, and W. A. Clarkson, “High power fiber lasers: current status and future perspectives [Invited],” J. Opt. Soc. Am. B 27(11), B63–B92 (2010). [Crossref] Codemard, C. A.. M. N. Zervas and C. A. Codemard, “High power fiber lasers: a review,” IEEE J. Sel. Top. Quantum Electron. 20(5), 219–241 (2014). [Crossref] Dabo, I.. X. Y. Ji, S. M. Lei, S. Y. Yu, H. Y. Cheng, W. J. Liu, N. Poilvert, Y. H. Xiong, I. Dabo, S. E. Mohney, J. V. Badding, and V. Gopalan, “Single-crystal silicon optical fiber by direct laser crystallization,” ACS Photonics 4(1), 85–92 (2017). [Crossref] Daw, M.. J. Ballato, T. Hawkins, P. Foy, B. Kokuoz, R. Stolen, C. McMillen, M. Daw, Z. Su, T. M. Tritt, M. Dubinskii, J. Zhang, T. Sanamyan, and M. J. Matthewson, “On the fabrication of all-glass optical fibers from crystals,” J. Appl. Phys. 105(5), 53110 (2009). [Crossref] Dawson, J. W.. J. W. Dawson, M. J. Messerly, R. J. Beach, M. Y. Shverdin, E. A. Stappaerts, A. K. Sridharan, P. H. Pax, J. E. Heebner, C. W. Siders, and C. P. J. Barty, “Analysis of the scalability of diffraction-limited fiber lasers and amplifiers to high average power,” Opt. Express 16(17), 13240–13266 (2008). [Crossref] [PubMed] Deng, H.. C. Yang, D. Chen, S. Xu, H. Deng, W. Lin, Q. Zhao, Y. Zhang, K. Zhou, Z. Feng, Q. Qian, and Z. Yang, “Short all Tm3+-doped germanate glass fiber MOPA single-frequency laser at 1.95 μm,” Opt. Express 24(10), 10956–10961 (2016). [Crossref] [PubMed] Dong, G. P.. Y. M. Zhang, W. W. Wang, J. Li, X. S. Xiao, Z. J. Ma, H. T. Guo, G. P. Dong, S. H. Xu, and J. R. Qiu, “Multi-component yttrium aluminosilicate (YAS) fiber prepared by melt-in-tube method for stable single-frequency laser,” J. Am. Ceram. Soc. 00, 16072 (2018). [Crossref] Dragic, P.. J. Ballato and P. Dragic, “Glass: the carrier of light - a brief history of optical fiber,” Int. J. Appl. Glass Sci. 7(4), 413–422 (2016). [Crossref] J. Ballato and P. Dragic, “Rethinking optical fiber: new demands, old glasses,” J. Am. Ceram. Soc. 96(9), 2675–2692 (2013). [Crossref] P. Dragic, P. C. Law, J. Ballato, T. Hawkins, and P. Foy, “Brillouin spectroscopy of YAG-derived optical fibers,” Opt. Express 18(10), 10055–10067 (2010). [Crossref] [PubMed] Dragic, P. D.. P. D. Dragic, Y. S. Liu, J. Ballato, T. Hawkins, and P. Foy, “YAG-derived fiber for high-power narrow-linewidth fiber lasers,” Fiber Lasers IX: Technology, Systems, and Applications 8237(14), 82371E (2012). [Crossref] P. D. Dragic, J. Ballato, T. Hawkins, and P. Foy, “Feasibility study of Yb:YAG-derived silicate fibers with large Yb content as gain media,” Opt. Mater. 34(8), 1294–1298 (2012). [Crossref] Dubinskii, M.. J. Ballato, T. Hawkins, P. Foy, B. Kokuoz, R. Stolen, C. McMillen, M. Daw, Z. Su, T. M. Tritt, M. Dubinskii, J. Zhang, T. Sanamyan, and M. J. Matthewson, “On the fabrication of all-glass optical fibers from crystals,” J. Appl. Phys. 105(5), 53110 (2009). [Crossref] Feng, Z.. C. Yang, D. Chen, S. Xu, H. Deng, W. Lin, Q. Zhao, Y. Zhang, K. Zhou, Z. Feng, Q. Qian, and Z. Yang, “Short all Tm3+-doped germanate glass fiber MOPA single-frequency laser at 1.95 μm,” Opt. Express 24(10), 10956–10961 (2016). [Crossref] [PubMed] Foy, P.. P. D. Dragic, Y. S. Liu, J. Ballato, T. Hawkins, and P. Foy, “YAG-derived fiber for high-power narrow-linewidth fiber lasers,” Fiber Lasers IX: Technology, Systems, and Applications 8237(14), 82371E (2012). [Crossref] P. D. Dragic, J. Ballato, T. Hawkins, and P. Foy, “Feasibility study of Yb:YAG-derived silicate fibers with large Yb content as gain media,” Opt. Mater. 34(8), 1294–1298 (2012). [Crossref] P. Dragic, P. C. Law, J. Ballato, T. Hawkins, and P. Foy, “Brillouin spectroscopy of YAG-derived optical fibers,” Opt. Express 18(10), 10055–10067 (2010). [Crossref] [PubMed] J. Ballato, T. Hawkins, P. Foy, B. Kokuoz, R. Stolen, C. McMillen, M. Daw, Z. Su, T. M. Tritt, M. Dubinskii, J. Zhang, T. Sanamyan, and M. J. Matthewson, “On the fabrication of all-glass optical fibers from crystals,” J. Appl. Phys. 105(5), 53110 (2009). [Crossref] Gao, W. Q.. T. L. Cheng, M. S. Liao, X. J. Xue, J. Li, W. Q. Gao, X. Li, D. P. Chen, S. P. Zheng, Y. B. Pan, T. Suzuki, and Y. Ohishi, “A silica optical fiber doped with yttrium aluminosilicate nanoparticles for supercontinuum generation,” Opt. Mater. 53, 39–43 (2016). [Crossref] Gopalan, V.. X. Y. Ji, S. M. Lei, S. Y. Yu, H. Y. Cheng, W. J. Liu, N. Poilvert, Y. H. Xiong, I. Dabo, S. E. Mohney, J. V. Badding, and V. Gopalan, “Single-crystal silicon optical fiber by direct laser crystallization,” ACS Photonics 4(1), 85–92 (2017). [Crossref] Guo, H. T.. Y. M. Zhang, W. W. Wang, J. Li, X. S. Xiao, Z. J. Ma, H. T. Guo, G. P. Dong, S. H. Xu, and J. R. Qiu, “Multi-component yttrium aluminosilicate (YAS) fiber prepared by melt-in-tube method for stable single-frequency laser,” J. Am. Ceram. Soc. 00, 16072 (2018). [Crossref] Y. M. Zhang, G. Q. Qian, X. S. Xiao, X. L. Tian, Z. Chen, J. P. Zhong, Z. J. Ma, H. T. Guo, S. H. Xu, Z. M. Yang, and J. R. Qiu, “A yttrium aluminosilicate glass fiber with graded refractive index fabricated by melt-in-tube method,” J. Am. Ceram. Soc. 101(4), 1616–1622 (2018). [Crossref] Guo, S.. H. Yu, H. Zhang, H. Lv, X. Wang, J. Leng, H. Xiao, S. Guo, P. Zhou, X. Xu, and J. Chen, “3.15 kW direct diode-pumped near diffraction-limited all-fiber-integrated fiber laser,” Appl. Opt. 54(14), 4556–4560 (2015). [Crossref] [PubMed] Hawkins, T.. P. D. Dragic, Y. S. Liu, J. Ballato, T. Hawkins, and P. Foy, “YAG-derived fiber for high-power narrow-linewidth fiber lasers,” Fiber Lasers IX: Technology, Systems, and Applications 8237(14), 82371E (2012). [Crossref] P. D. Dragic, J. Ballato, T. Hawkins, and P. Foy, “Feasibility study of Yb:YAG-derived silicate fibers with large Yb content as gain media,” Opt. Mater. 34(8), 1294–1298 (2012). [Crossref] P. Dragic, P. C. Law, J. Ballato, T. Hawkins, and P. Foy, “Brillouin spectroscopy of YAG-derived optical fibers,” Opt. Express 18(10), 10055–10067 (2010). 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Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] Y. C. Huang, J. S. Wang, Y. K. Lu, W. K. Liu, K. Y. Huang, S. L. Huang, and W. H. Cheng, “Preform fabrication and fiber drawing of 300 nm broadband Cr-doped fibers,” Opt. Express 15(22), 14382–14388 (2007). [Crossref] [PubMed] Huang, Y. C.. Y. C. Huang, J. S. Wang, Y. K. Lu, W. K. Liu, K. Y. Huang, S. L. Huang, and W. H. Cheng, “Preform fabrication and fiber drawing of 300 nm broadband Cr-doped fibers,” Opt. Express 15(22), 14382–14388 (2007). [Crossref] [PubMed] Ji, K. D.. C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] Ji, X. Y.. X. Y. Ji, S. M. Lei, S. Y. Yu, H. Y. Cheng, W. J. Liu, N. Poilvert, Y. H. Xiong, I. Dabo, S. E. Mohney, J. V. Badding, and V. Gopalan, “Single-crystal silicon optical fiber by direct laser crystallization,” ACS Photonics 4(1), 85–92 (2017). [Crossref] Ke, C. P.. C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] Kokuoz, B.. J. Ballato, T. Hawkins, P. Foy, B. Kokuoz, R. Stolen, C. McMillen, M. Daw, Z. Su, T. M. Tritt, M. Dubinskii, J. Zhang, T. Sanamyan, and M. J. Matthewson, “On the fabrication of all-glass optical fibers from crystals,” J. Appl. Phys. 105(5), 53110 (2009). [Crossref] Lai, C. C.. C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] Law, P. C.. P. Dragic, P. C. Law, J. Ballato, T. Hawkins, and P. Foy, “Brillouin spectroscopy of YAG-derived optical fibers,” Opt. Express 18(10), 10055–10067 (2010). [Crossref] [PubMed] Lei, S. M.. X. Y. Ji, S. M. Lei, S. Y. Yu, H. Y. Cheng, W. J. Liu, N. Poilvert, Y. H. Xiong, I. Dabo, S. E. Mohney, J. V. Badding, and V. Gopalan, “Single-crystal silicon optical fiber by direct laser crystallization,” ACS Photonics 4(1), 85–92 (2017). [Crossref] Leng, J.. L. Li, M. Wang, T. Liu, J. Leng, P. Zhou, and J. Chen, “High-power, cladding-pumped all-fiber laser with selective transverse mode generation property,” Appl. Opt. 56(17), 4967–4970 (2017). [Crossref] [PubMed] H. Yu, H. Zhang, H. Lv, X. Wang, J. Leng, H. Xiao, S. Guo, P. Zhou, X. Xu, and J. Chen, “3.15 kW direct diode-pumped near diffraction-limited all-fiber-integrated fiber laser,” Appl. Opt. 54(14), 4556–4560 (2015). [Crossref] [PubMed] Li, J.. Y. M. Zhang, W. W. Wang, J. Li, X. S. Xiao, Z. J. Ma, H. T. Guo, G. P. Dong, S. H. Xu, and J. R. Qiu, “Multi-component yttrium aluminosilicate (YAS) fiber prepared by melt-in-tube method for stable single-frequency laser,” J. Am. Ceram. Soc. 00, 16072 (2018). [Crossref] S. P. Zheng, J. Li, C. L. Yu, Q. L. Zhou, L. L. Hu, and D. P. Chen, “Preparation and characterizations of Yb:YAG-derived silica fibers drawn by on-line feeding molten core approach,” Ceram. Int. 43(7), 5837–5841 (2017). [Crossref] T. L. Cheng, M. S. Liao, X. J. Xue, J. Li, W. Q. Gao, X. Li, D. P. Chen, S. P. Zheng, Y. B. Pan, T. Suzuki, and Y. Ohishi, “A silica optical fiber doped with yttrium aluminosilicate nanoparticles for supercontinuum generation,” Opt. Mater. 53, 39–43 (2016). [Crossref] S. Zheng, J. Li, C. Yu, Q. Zhou, and D. Chen, “Preparation and characterizations of Nd:YAG ceramic derived silica fibers drawn by post-feeding molten core approach,” Opt. Express 24(21), 24248–24254 (2016). [Crossref] [PubMed] Li, L.. L. Li, M. Wang, T. Liu, J. Leng, P. Zhou, and J. Chen, “High-power, cladding-pumped all-fiber laser with selective transverse mode generation property,” Appl. Opt. 56(17), 4967–4970 (2017). [Crossref] [PubMed] Li, X.. T. L. Cheng, M. S. Liao, X. J. Xue, J. Li, W. Q. Gao, X. Li, D. P. Chen, S. P. Zheng, Y. B. Pan, T. Suzuki, and Y. Ohishi, “A silica optical fiber doped with yttrium aluminosilicate nanoparticles for supercontinuum generation,” Opt. Mater. 53, 39–43 (2016). [Crossref] Liao, M. S.. T. L. Cheng, M. S. Liao, X. J. Xue, J. Li, W. Q. Gao, X. Li, D. P. Chen, S. P. Zheng, Y. B. Pan, T. Suzuki, and Y. Ohishi, “A silica optical fiber doped with yttrium aluminosilicate nanoparticles for supercontinuum generation,” Opt. Mater. 53, 39–43 (2016). [Crossref] Lin, S. R.. C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] Lin, W.. C. Yang, D. Chen, S. Xu, H. Deng, W. Lin, Q. Zhao, Y. Zhang, K. Zhou, Z. Feng, Q. Qian, and Z. Yang, “Short all Tm3+-doped germanate glass fiber MOPA single-frequency laser at 1.95 μm,” Opt. Express 24(10), 10956–10961 (2016). [Crossref] [PubMed] Liu, S. K.. C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG silica fiber laser,” Opt. Lett. 34(15), 2357–2359 (2009). [Crossref] [PubMed] Liu, T.. L. Li, M. Wang, T. Liu, J. Leng, P. Zhou, and J. Chen, “High-power, cladding-pumped all-fiber laser with selective transverse mode generation property,” Appl. Opt. 56(17), 4967–4970 (2017). [Crossref] [PubMed] Liu, W. J.. X. Y. Ji, S. M. Lei, S. Y. Yu, H. Y. Cheng, W. J. Liu, N. Poilvert, Y. H. Xiong, I. Dabo, S. E. Mohney, J. V. Badding, and V. Gopalan, “Single-crystal silicon optical fiber by direct laser crystallization,” ACS Photonics 4(1), 85–92 (2017). [Crossref] Liu, W. K.. Y. C. Huang, J. S. Wang, Y. K. Lu, W. K. Liu, K. Y. Huang, S. L. Huang, and W. H. Cheng, “Preform fabrication and fiber drawing of 300 nm broadband Cr-doped fibers,” Opt. Express 15(22), 14382–14388 (2007). [Crossref] [PubMed] Liu, Y. S.. P. D. Dragic, Y. S. Liu, J. Ballato, T. Hawkins, and P. Foy, “YAG-derived fiber for high-power narrow-linewidth fiber lasers,” Fiber Lasers IX: Technology, Systems, and Applications 8237(14), 82371E (2012). [Crossref] Lu, Y. K.. Y. C. Huang, J. S. Wang, Y. K. Lu, W. K. Liu, K. Y. Huang, S. L. Huang, and W. H. Cheng, “Preform fabrication and fiber drawing of 300 nm broadband Cr-doped fibers,” Opt. Express 15(22), 14382–14388 (2007). [Crossref] [PubMed] Lv, H.. H. Yu, H. Zhang, H. Lv, X. Wang, J. Leng, H. Xiao, S. Guo, P. Zhou, X. Xu, and J. Chen, “3.15 kW direct diode-pumped near diffraction-limited all-fiber-integrated fiber laser,” Appl. Opt. 54(14), 4556–4560 (2015). [Crossref] [PubMed] Ma, Z. J.. Y. M. Zhang, G. Q. Qian, X. S. Xiao, X. L. Tian, Z. Chen, J. P. Zhong, Z. J. Ma, H. T. Guo, S. H. Xu, Z. M. Yang, and J. R. Qiu, “A yttrium aluminosilicate glass fiber with graded refractive index fabricated by melt-in-tube method,” J. Am. Ceram. Soc. 101(4), 1616–1622 (2018). [Crossref] Y. M. Zhang, W. W. Wang, J. Li, X. S. Xiao, Z. J. Ma, H. T. Guo, G. P. Dong, S. H. Xu, and J. R. Qiu, “Multi-component yttrium aluminosilicate (YAS) fiber prepared by melt-in-tube method for stable single-frequency laser,” J. Am. Ceram. Soc. 00, 16072 (2018). [Crossref] Matthewson, M. J.. J. Ballato, T. Hawkins, P. Foy, B. Kokuoz, R. Stolen, C. McMillen, M. Daw, Z. Su, T. M. Tritt, M. Dubinskii, J. Zhang, T. Sanamyan, and M. J. Matthewson, “On the fabrication of all-glass optical fibers from crystals,” J. Appl. Phys. 105(5), 53110 (2009). [Crossref] McMillen, C.. J. Ballato, T. Hawkins, P. Foy, B. Kokuoz, R. Stolen, C. McMillen, M. Daw, Z. Su, T. M. Tritt, M. Dubinskii, J. Zhang, T. Sanamyan, and M. J. Matthewson, “On the fabrication of all-glass optical fibers from crystals,” J. Appl. Phys. 105(5), 53110 (2009). [Crossref] Messerly, M. J.. J. W. Dawson, M. J. Messerly, R. J. Beach, M. Y. Shverdin, E. A. Stappaerts, A. K. Sridharan, P. H. Pax, J. E. Heebner, C. W. Siders, and C. P. J. Barty, “Analysis of the scalability of diffraction-limited fiber lasers and amplifiers to high average power,” Opt. Express 16(17), 13240–13266 (2008). [Crossref] [PubMed] Mohney, S. E.. X. Y. Ji, S. M. Lei, S. Y. Yu, H. Y. Cheng, W. J. Liu, N. Poilvert, Y. H. Xiong, I. Dabo, S. E. Mohney, J. V. Badding, and V. Gopalan, “Single-crystal silicon optical fiber by direct laser crystallization,” ACS Photonics 4(1), 85–92 (2017). [Crossref] Nilsson, J.. D. J. Richardson, J. Nilsson, and W. A. Clarkson, “High power fiber lasers: current status and future perspectives [Invited],” J. Opt. Soc. Am. B 27(11), B63–B92 (2010). [Crossref] Ohishi, Y.. T. L. Cheng, M. S. Liao, X. J. Xue, J. Li, W. Q. Gao, X. Li, D. P. Chen, S. P. Zheng, Y. B. Pan, T. Suzuki, and Y. Ohishi, “A silica optical fiber doped with yttrium aluminosilicate nanoparticles for supercontinuum generation,” Opt. Mater. 53, 39–43 (2016). [Crossref] Pan, Y. B.. T. L. Cheng, M. S. Liao, X. J. Xue, J. Li, W. Q. Gao, X. Li, D. P. Chen, S. P. Zheng, Y. B. Pan, T. Suzuki, and Y. Ohishi, “A silica optical fiber doped with yttrium aluminosilicate nanoparticles for supercontinuum generation,” Opt. Mater. 53, 39–43 (2016). [Crossref] Pax, P. H.. J. W. Dawson, M. J. Messerly, R. J. Beach, M. Y. Shverdin, E. A. Stappaerts, A. K. Sridharan, P. H. Pax, J. E. Heebner, C. W. Siders, and C. P. J. Barty, “Analysis of the scalability of diffraction-limited fiber lasers and amplifiers to high average power,” Opt. Express 16(17), 13240–13266 (2008). [Crossref] [PubMed] Poilvert, N.. X. Y. Ji, S. M. Lei, S. Y. Yu, H. Y. Cheng, W. J. Liu, N. Poilvert, Y. H. Xiong, I. Dabo, S. E. Mohney, J. V. Badding, and V. Gopalan, “Single-crystal silicon optical fiber by direct laser crystallization,” ACS Photonics 4(1), 85–92 (2017). [Crossref] Qian, G. Q.. Y. M. Zhang, G. Q. Qian, X. S. Xiao, X. L. Tian, Z. Chen, J. P. Zhong, Z. J. Ma, H. T. Guo, S. H. Xu, Z. M. Yang, and J. R. Qiu, “A yttrium aluminosilicate glass fiber with graded refractive index fabricated by melt-in-tube method,” J. Am. Ceram. Soc. 101(4), 1616–1622 (2018). [Crossref] Qian, Q.. C. Yang, D. Chen, S. Xu, H. Deng, W. Lin, Q. Zhao, Y. Zhang, K. Zhou, Z. Feng, Q. Qian, and Z. Yang, “Short all Tm3+-doped germanate glass fiber MOPA single-frequency laser at 1.95 μm,” Opt. Express 24(10), 10956–10961 (2016). [Crossref] [PubMed] Qiu, J. R.. Y. M. Zhang, W. W. Wang, J. Li, X. S. Xiao, Z. J. Ma, H. T. Guo, G. P. Dong, S. H. Xu, and J. R. Qiu, “Multi-component yttrium aluminosilicate (YAS) fiber prepared by melt-in-tube method for stable single-frequency laser,” J. Am. Ceram. Soc. 00, 16072 (2018). [Crossref] Y. M. Zhang, G. Q. Qian, X. S. Xiao, X. L. Tian, Z. Chen, J. P. Zhong, Z. J. Ma, H. T. Guo, S. H. Xu, Z. M. Yang, and J. R. Qiu, “A yttrium aluminosilicate glass fiber with graded refractive index fabricated by melt-in-tube method,” J. Am. Ceram. Soc. 101(4), 1616–1622 (2018). [Crossref] Richardson, D. J.. D. J. Richardson, J. Nilsson, and W. A. Clarkson, “High power fiber lasers: current status and future perspectives [Invited],” J. Opt. Soc. Am. B 27(11), B63–B92 (2010). [Crossref] Sanamyan, T.. J. Ballato, T. Hawkins, P. Foy, B. Kokuoz, R. Stolen, C. McMillen, M. Daw, Z. Su, T. M. Tritt, M. Dubinskii, J. Zhang, T. Sanamyan, and M. J. Matthewson, “On the fabrication of all-glass optical fibers from crystals,” J. Appl. Phys. 105(5), 53110 (2009). [Crossref] Shverdin, M. Y.. J. W. Dawson, M. J. Messerly, R. J. 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