近期论文
查看导师最新文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
1. S.D. Liu, N. Cui, Q.R. Wu, K. Zhang, P.F. Wang, L.L. Dong, and M.S. He, “Laser switching characteristics of enriched (7,5) single-walled carbon nanotubes at 640 nm,” Carbon, 191, 433-438 (2022).
2. S.D. Liu, N. Cui, S.C. Liu, P.F. Wang, L.L. Dong, B. Chen, N. Zhang, K. Zhang, and Y.G. Wang, “Nonlinear optical properties and passively Q-switched laser application of a layered molybdenum carbide at 639 nm,” Optics Letters, 47(7), 1830-1833 (2022).
3. B. Chen, P.F. Wang, N. Zhang, K. Li, K. Zhang, S.D. Liu*, J.L. Xu and Z.P. Sun, “GaInSn liquid nanosphere as a saturable absorber for Q-switched pulse generation at 639 nm,” Optics Express, 30(15), 28242-28249 (2022).
4. N. Cui, F. Zhang, Y.Q. Zhao, Y.P. Yao, Q.G. Wang, L.L. Dong, H.Y. Zhang, S.D. Liu*, J.L. Xu, and H. Zhang*, “The visible nonlinear optical properties and passively Q-switched laser application of a layered PtSe2 material,” Nanoscale, 12, 1061-1066 (2020).
5. Y.P. Yao, N. Cui, Q.G. Wang, L.L. Dong, S.D. Liu*, D.L. Sun, H.Y. Zhang, D.H. Li, B.T. Zhang, and J.L. He, “Highly efficient continuous-wave and ReSe2 Q-switched ~3μm dual-wavelength Er:YAP crystal lasers,” Optics Letters, 44(11), 2839-2842 (2019).
6. S.D. Liu*, Q.G. Wang, K. Wang, Y.P. Yao, H.Y. Zhang, T.Q. Ren, Z.M. Yin, F.L. Du, B.T. Zhang, and J.L. He, “Two-photon saturable absorption properties and laser Q-switch application of carbon quantum dots,” Optics Letters, 42(19), 3972-3975 (2017).
7. N. Zhang, P.F. Wang, B. Chen, Z.X. Wang, S.D. Liu*, Y.G. Zhao, Z.T. Jia, B.T. Zhang, and Z.P. Sun, “High-efficiency broadband (>210 nm) in-band pumped Tm:LuGGG solid-state laser,” Applied Physics B, 128, 128 (2022).
8. B. Chen, K. Li, Y.C. Jin, P.F. Wang, N. Zhang, K. Zhang, S.D. Liu*, and J.L. Xu*, “GaInSn liquid nanospheres as a saturable absorber for an Er:CaF2 laser at 2.75 μm,” Frontiers in Physics, 10, 986795 (2022).
9. Y.P. Yao, F. Zhang, B. Chen, Y.Q. Zhao, N. Cui, D.L. Sun, S.D. Liu*, Y.P. Zhang, H.Y. Zhang, and H. Zhang, “Nonlinear optical property and mid-infrared Q-switched laser application at 2.8μm of PtSe2 material,” Optics and Laser Technology, 139, 106983 (2021).
10. Y.Q. Zhao, Q.G. Wang, L.H. Meng, Y.P. Yao, S.D. Liu*, N. Cui, L.B. Su, L.H. Zheng, H.Y. Zhang, and Y.P. Zhang, “Anisotropy of the thermal and laser output properties in Yb,Nd:Sc2SiO5 crystal,” Chinese Optics Letters, 19, 041405 (2021).
11. Q.G. Wang, N. Cui, Y.P. Yao, L.H. Meng, L. Li, L.L. Dong, H.Y. Zhang, S.D. Liu*, and D.H. Li, “High peak power 1.0 μm and tri-wavelength 1.3 μm Nd:ScYSiO5 crystal lasers,” Chinese Optics Letters, 17(11), 111403 (2019).
12. Y.P. Yao, X.W. Li, R.G. Song, N. Cui, S.D. Liu*, H.Y. Zhang, D.H. Li, Q.G. Wang, Y. Xu, and J.L. He, “The energy band structure analysis and 2μm Q-switched laser application of layered rhenium diselenide,” RSC Advances, 9(25), 14417-14421 (2019).
13. S.D. Liu, H.K. Nie, B.T. Zhang*, P.X. Zhang, X.L. Sun, B.Z. Yan, G.R. Li, Y.R. Wang, J.T. Liu, B.N. Shi, Y. Hang, and J.L. He, “Continuous-wave tunable and passively Q-switched 2.9 μm Ho,Pr:LiLuF4 lasers,” Laser Physics Letters, 16, 015802 (2019).
14. L.L. Dong, Q.G. Wang, Y.P. Yao, S.D. Liu*, H.Y. Zhang, L.H. Zheng, L.B. Su, Y. Xu, and J. Xu, “Wide wavelength tuning on 4F3/2→4I13/2 transitions from Nd:ScYSiO5 laser,” Optics and Laser Technology, 111, 770-774 (2019).