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    Journals >Journal of Applied Optics >Volume 45 >Issue 4 >Page 834 > Article
    • Journal of Applied Optics
    • Vol. 45, Issue 4, 834 (2024)
    Wide spectrum Yb-doped Figure-9 fiber laser cavity based on dispersion compensation
    Ming ZHAO1 and Tianshu WANG2,*
    Author Affiliations
  • 1School of Information Science and Technology, Xiamen University Tan Kah Kee College, Zhangzhou 363105, China
  • 2National and Local Joint Engineering Research Center of Space Optoelectronics Technology, Changchun University of Science and Technology, Changchun 130022, China
    • show less
    DOI: 10.5768/JAO202445.0407001 Cite this Article
    Ming ZHAO, Tianshu WANG. Wide spectrum Yb-doped Figure-9 fiber laser cavity based on dispersion compensation[J]. Journal of Applied Optics, 2024, 45(4): 834 Copy Citation Text show less
    References

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    [2] B ALI, I V LITVINYUK, M RYBACHUK. Femtosecond laser micromachining of diamond: current research status, applications and challenges. Carbon, 179, 209-226(2021).

    [3] M LEZIUS, T WILKEN, C DEUTSCH et al. Space-borne frequency comb metrology. Optica, 3, 1381-1387(2016).

    [4] A MOHAMMADI, L BIANCHI, S KORGANBAYEV et al. Thermomechanical modeling of laser ablation therapy of tumors: sensitivity analysis and optimization of influential variables. IEEE Transactions on Biomedical Engineering, 69, 302-313(2022).

    [5] J Z QIU, J M H TEICHMAN, T Y WANG et al. Femtosecond laser lithotripsy: feasibility and ablation mechanism. Journal of Biomedical Optics, 15, 028001-1-5(2010).

    [6] G SOBON, J SOTOR, K M ABRAMSKI. All-polarization maintaining femtosecond Er-doped fiber laser mode-locked by graphene saturable absorber. Laser Physics Letters, 9, 581-586(2012).

    [7] K VISKONTAS, K MADEIKIS, R DANILEVICIUS et al. The influence of negative cavity dispersion on timing jitter of an all-PM SESAM mode-locked fiber oscillator, 1(2019).

    [8] J SZCZEPANEK, T M KARDAŚ, C RADZEWICZ et al. Ultrafast laser mode-locked using nonlinear polarization evolution in polarization maintaining fibers. Optics Letters, 42, 575-578(2017).

    [9] X ZHAO, Y LIU, L ZHOU et al. All-normal-dispersion polarization-maintaining Yb-doped fiber laser based on nonlinear amplifying loop mirror. Chinese Journal of Lasers, 46, 279-283(2019).

    [10] D DUAN, J WANG, Y WU et al. Approach to high pulse energy emission of the self-starting mode-locked figure-9 fiber laser. Optics Express, 28, 33603-33613(2020).

    [11] L ZHANG, J Q ZHOU, Z K WANG et al. SESAM mode-locked, environmentally stable, and compact dissipative soliton fiber laser. IEEE Photonics Technology Letters, 26, 1314-1316(2014).

    [12] Yufei DUAN, Feng LI, Zhi YANG et al. Femtosecond chirped pulse amplification system with liquid crystal spatial light modulator for spectral modulation. Chinese Journal of Lasers, 48, 38-46(2021).

    [13] A CHONG, J BUCKLEY, W RENNINGER et al. All-normal-dispersion femtosecond fiber laser. Optics Express, 14, 10095-10100(2006).

    [14] Jiawei SHEN, Yong WANG, Lu SI et al. 163 MHz/786 fs high repetition rate Yb-doped femtosecond fiber laser oscillator. Optical Instruments, 44, 31-36(2022).

    [15] J W NICHOLSON, M ANDREJCO. A polarization maintaining, dispersion managed, femtosecond figure-eight fiber laser. Optics Express, 14, 8160-8167(2006).

    [16] E BAUMANN, F R GIORGETTA, J W NICHOLSON et al. High-performance, vibration-immune, fiber-laser frequency comb. Optics Letters, 34, 638-640(2009).

    [17] A S MAYER, W GROSINGER, J FELLINGER et al. Flexible all-PM NALM Yb: fiber laser design for frequency comb applications: operation regimes and their noise properties. Optics Express, 28, 18946-18968(2020).

    [18] C AGUERGARAY, R HAWKER, A F J RUNGE et al. 120 fs, 4.2 nJ pulses from an all-normal-dispersion, polarization-maintaining, fiber laser. Applied Physics Letters, 103, 121111(2013).

    [19] Y YU, H TENG, H B WANG et al. Highly-stable mode-locked PM Yb-fiber laser with 10 nJ in 93 fs at 6 MHz using NALM. Optics Express, 26, 10428-10434(2018).

    [20] Y Z HOU, Y M LIU, Z L LI et al. Observation of bound solitons generated by a figure-9 fiber laser in the 1 µm band. Applied Optics, 62, 5580-5587(2023).

    [21] M STERN, J P HERITAGE, E W CHASE. Grating compensation of third-order fiber dispersion. IEEE Journal of Quantum Electronics, 28, 2742-2748(1992).

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    Ming ZHAO, Tianshu WANG. Wide spectrum Yb-doped Figure-9 fiber laser cavity based on dispersion compensation[J]. Journal of Applied Optics, 2024, 45(4): 834
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