Researching | 30 W monolithic 2–3 μm supercontinuum laser

Journals >Photonics Research >Volume 6 >Issue 2 >Page 123 > Article

Photonics Research
Vol. 6, Issue 2, 123 (2018)

30 W monolithic 2–3 μm supercontinuum laser

Ke Yin^1、2, Bin Zhang^{1、3、4、*}, Linyong Yang^1、3、4, and Jing Hou^1、3、4

Author Affiliations

¹College of Optoelectronic Science and Engineering, National University of Defense Technology, Changsha 410073, China

²National Institute of Defense Technology Innovation, Academy of Military Sciences PLA China, Beijing 100010, China

³Hunan Provincial Key Laboratory of High Energy Laser Technology, Changsha 410073, China

⁴Hunan Provincial Collaborative Innovation Center of High Power Fiber Laser, Changsha 410073, China

show less

DOI: 10.1364/PRJ.6.000123 Cite this Article Set citation alerts

Ke Yin, Bin Zhang, Linyong Yang, Jing Hou. 30 W monolithic 2–3 μm supercontinuum laser[J]. Photonics Research, 2018, 6(2): 123 Copy Citation Text

show less

References

[1] K. Yin, B. Zhang, J. Yao, L. Yang, S. Chen, J. Hou. Highly stable, monolithic, single-mode mid-infrared supercontinuum source based on low-loss fusion spliced silica and fluoride fibers. Opt. Lett., 41, 946-949(2016).

[2] W. Yang, B. Zhang, G. Xue, K. Yin, J. Hou. Thirteen watt all-fiber mid-infrared supercontinuum generation in a single mode ZBLAN fiber pumped by a 2 μm MOPA system. Opt. Lett., 39, 1849-1852(2014).

[3] Y. Yu, B. Zhang, X. Gai, C. Zhai, S. Qi, W. Guo, Z. Yang, R. Wang, D.-Y. Choi, S. Madden, B. Luther-Davies. 1.8–10 μm mid-infrared supercontinuum generated in a step-index chalcogenide fiber using low peak pump power. Opt. Lett., 40, 1081-1084(2015).

[4] H. Ou, S. Dai, P. Zhang, Z. Liu, X. Wang, F. Chen, H. Xu, B. Luo, Y. Huang, R. Wang. Ultrabroad supercontinuum generated from a highly nonlinear Ge-Sb–Se fiber. Opt. Lett., 41, 3201-3204(2016).

[5] X. Zou, T. Izumitani. Spectroscopic properties and mechanisms of excited state absorption and energy transfer upconversion for Er³⁺-doped glasses. J. Non-Cryst. Solids, 162, 68-80(1993).

[6] K. Yin, B. Zhang, W. Yang, H. Chen, J. Hou. Over an octave cascaded Raman scattering in short highly germanium-doped silica fiber. Opt. Express, 21, 15987-15997(2013).

[7] E. A. Anashkina, A. V. Andrianov, M. Y. Koptev, S. V. Muravyev, A. V. Kim. Towards mid-infrared supercontinuum generation with germano-silicate fibers. IEEE J. Sel. Top. Quantum Electron, 20, 643-650(2014).

[8] V. A. Kamynin, A. E. Bednyakova, M. P. Fedoruk, I. A. Volkov, K. N. Nishchev, A. S. Kurkov. Supercontinuum generation beyond 2 μm in GeO₂ fiber: comparison of nano- and femtosecond pumping. Laser Phys. Lett., 12, 065101(2015).

[9] E. Anashkina, A. Andrianov, M. Y. Koptev, V. Mashinsky, S. Muravyev, A. Kim. Generating tunable optical pulses over the ultrabroad range of 1.6–2.5 μm in GeO₂-doped silica fibers with an Er:fiber laser source. Opt. Express, 20, 27102-27107(2012).

[10] X. Dong, L. Wang, X. Li, P. P. Shum, H. Su, Q. Wang. Raman lasers with germania-core and silica-cladding fibers. Nonlinear Optics, NM3A.2(2015).

[11] V. V. Dvoyrin, I. T. Sorokina. All-fiber optical supercontinuum sources in 1.7–3.2 μm range. Proc. SPIE, 8961, 89611C(2014).

[12] M. Zhang, E. Kelleher, T. Runcorn, V. Mashinsky, O. Medvedkov, E. Dianov, D. Popa, S. Milana, T. Hasan, Z. Sun. Mid-infrared Raman-soliton continuum pumped by a nanotube-mode-locked sub-picosecond Tm-doped MOPFA. Opt. Express, 21, 23261-23271(2013).

[13] T. Kato, Y. Suetsugu, M. Nishimura. Estimation of nonlinear refractive index in various silica-based glasses for optical fibers. Opt. Lett., 20, 2279-2281(1995).

[14] L. Yang, B. Zhang, K. Yin, J. Yao, G. Liu, J. Hou. 0.6–3.2 μm supercontinuum generation in a step-index germania-core fiber using a 4.4 kW peak-power pump laser. Opt. Express, 24, 12600-12606(2016).

[15] K. Yin, B. Zhang, J. Yao, L. Yang, G. Liu, J. Hou. 1.9–3.6 μm supercontinuum generation in a very short highly nonlinear germania fiber with a high mid-infrared power ratio. Opt. Lett., 41, 5067-5070(2016).

[16] D. Jain, R. Sidharthan, P. M. Moselund, S. Yoo, D. Ho, O. Bang. Record power, ultra-broadband supercontinuum source based on highly GeO₂ doped silica fiber. Opt. Express, 24, 26667-26677(2016).

[17] J. Lægsgaard, H. Tu. How long wavelengths can one extract from silica-core fibers?. Opt. Lett., 38, 4518-4521(2013).

CLP Journals

[1] Linyong Yang, Ying Li, Bin Zhang, Tianyi Wu, Yijun Zhao, Jing Hou. 30-W supercontinuum generation based on ZBLAN fiber in an all-fiber configuration[J]. Photonics Research, 2019, 7(9): 1061

[2] Huanhuan Liu, Ye Yu, Wei Song, Qiao Jiang, Fufei Pang. Recent development of flat supercontinuum generation in specialty optical fibers[J]. Opto-Electronic Advances, 2019, 2(2): 180020

[3] Meng Wang, Yijian Huang, Zongpeng Song, Jincheng Wei, Jihong Pei, Shuangchen Ruan. Two-micron all-fiberized passively mode-locked fiber lasers with high-energy nanosecond pulse[J]. High Power Laser Science and Engineering, 2020, 8(2): 02000e14

Figures&Tables (7)

References (17)

Copy Citation Text

Ke Yin, Bin Zhang, Linyong Yang, Jing Hou. 30 W monolithic 2–3 μm supercontinuum laser[J]. Photonics Research, 2018, 6(2): 123

Download Citation

Set citation alerts for the article

Set citation alerts for the article

Save the article for my favorites

Paper Information

Recommended Topics

laser devices and laser physics

Lasers and Laser Optics

laser manufacturing

Instrumentation, Measurement and Metrology

Set citation alerts for the article

Please enter your email address