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Journals >Chinese Optics Letters >Volume 22 >Issue 5 >Page 051401 > Article

Chinese Optics Letters
Vol. 22, Issue 5, 051401 (2024)

Large aperture disk standing-wave unstable resonator with intra-cavity adaptive correction

Yi Yu^1,2,3, Jiayu Yi³, Liu Xu³, Jianli Shang³..., Jing Wu³, Lixin Tong^3,*, Qingsong Gao³, Chun Tang³, Wei Zhang³ and Lei Chen¹|Show fewer author(s)

Author Affiliations

¹Department of Optical Engineering, Nanjing University of Science and Technology, Nanjing 210094, China

²Graduate School of China Academy of Engineering Physics, Beijing 100193, China

³Institute of Applied Electronics, China Academy of Engineering Physics, Mianyang 621900, China

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DOI: 10.3788/COL202422.051401 Cite this Article Set citation alerts

Yi Yu, Jiayu Yi, Liu Xu, Jianli Shang, Jing Wu, Lixin Tong, Qingsong Gao, Chun Tang, Wei Zhang, Lei Chen, "Large aperture disk standing-wave unstable resonator with intra-cavity adaptive correction," Chin. Opt. Lett. 22, 051401 (2024) Copy Citation Text

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References

[1] A. Giesen, H. Hügel, A. Voss et al. Scalable concept for diode-pumped high-power solid-state lasers. Appl. Phys. B, 58, 365(1994).

[2] E. Papastathopoulos, F. Baumann, O. Bocksrocker et al. High-power high-brightness disk lasers for advanced applications. Proc. SPIE, 11664, 116640M(2021).

[3] T. Nubbemeyer, M. Kaumanns, M. Ueffing et al. 1 kW, 200 mJ picosecond thin-disk laser system. Opt. Lett., 42, 1381(2017).

[4] M. D. Nixon, M. C. Cates. High energy high brightness thin disk laser. Proc. SPIE, 8547, 85470D(2012).

[5] A. P. Ongstad, M. R. Guy, J. R. Chavez. High power Nd:YAG spinning disk laser. Opt. Express, 24, 108(2016).

[6] C. Tang, Z. Yao, J. Jiang et al. High-average power disk laser face-pumped by 2D-stack diode arrays. Proc. SPIE, 7131, 713113(2009).

[7] J. Ding, J. Wang, G. Yu et al. Theoretical and experimental study of diode-pumped Nd:LuAG disk lasers. Proc. SPIE, 11849, 1184910(2021).

[8] A. Aleknavičius, M. Gabalis, A. Michailovas et al. Aberrations induced by anti-ASE cap on thin-disk active element. Opt. Express, 21, 14530(2013).

[9] X. Zhang, J. Wang, Z. Hu. Wavefront aberration analysis in misalignment passive positive-branch unstable laser resonators. Optik, 127, 3912(2016).

[10] C. Yang, B. Xu, B. Lai et al. Intra-cavity adaptive correction of a unidirectional Nd:YAG slab unstable travelling-wave resonator. IEEE Photon. Technol. Lett., 33, 1333(2021).

[11] K. N. LaFortune, R. L. Hurd, E. M. Johansson et al. Intracavity adaptive correction of a 10 kW, solid-state, heat-capacity laser. Proc. SPIE, 5333, 53(2004).

[12] A. D. Timoshenko, O. O. Matvienko, A. G. Doroshenko et al. Highly-doped YAG:Sm3+ transparent ceramics: effect of Sm3+ ions concentration. Ceram. Int., 49, 7524(2023).

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Yi Yu, Jiayu Yi, Liu Xu, Jianli Shang, Jing Wu, Lixin Tong, Qingsong Gao, Chun Tang, Wei Zhang, Lei Chen, "Large aperture disk standing-wave unstable resonator with intra-cavity adaptive correction," Chin. Opt. Lett. 22, 051401 (2024)

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