Curriculum Vitae – Prof. Jie Liu

Date of Birth: Oct.1963

Nationality: Chinese

Present address

School of Physics and Electronics, Shandong Normal University, Jinan 250358, P. R. China

Email: jieliu@sdnu.edu.cn

Education

Shandong University, B.Sc. student in Optics, Sep. 1980-Jun. 1984

Working Experience

Shandong Normal University, Jinan 250358, P. R. China, Jul. 1984-Present

Award and Honours

l National Natural Science Foundation of China (2010，2014，2019)

l Highly Cited Chinese Researchers (2020，2021)

Research fields

Laser Physics; Ultrafast laser；Nonlinear Optics

Selected papers published in refereed international journals

38. Diode-pumped SESAM mode-locked Tm:Sc₂SiO₅ laser, Optics Letters ,2022, 47(17), 4495.

37. High-power 2.8 μm lasing in a lightly-doped Er:CaF₂ crystal, Journal of Luminescence 250 (2022) 119089.

36. Ultrafast operation on a novel Nd:LaMgAl₁₁O₁₉ disordered crystal laser，Infrared Physics & Technology 124 (2022) 104227.

35. Nonlinear optical response of a monolayer WS₂ and the application of a hundred-MHz nanosecond laser，Optics Express，2021,29 ( 22 ), 36634-36643

34. Broadband nonlinear optical response of graphdiyne for mid-infrared solid-state lasers, Sci. China-Phys. Mech. Astron. 64, 294214 (2021).

33. Er:CaF₂ single-crystal fiber Q-switched laser with diode pumping in the mid-infrared region Journal of Luminescence 227 (2020) 117519

32. Watt-level ultrafast bulk laser with a graphdiyne saturable absorber mirror，Optics Letters，2020，45（19），5554-5557.

31. Graphdiyne as a saturable absorber for 2-μm all-solid-state Q-switched laser,SCIENCE CHINA Materials.,Published online 9 October 2020

30. Low-dimensional saturable absorbers for ultrafast photonics in solid-state bulk lasers: status and prospects，Nanophotonics，2020; 9(9): 2603–2639

29. 575-fs passively mode-locked Yb:CaF₂ ceramic laser, Chin. Phys. B. 2020, 29(7) 074205.

28. Broadband indium tin oxide nanowire arrays as saturable absorbers for solid-state lasers，Optics Express，28（2）, 1554, 2020.

27. MXene Ti₃C₂Tx: A Promising Photothermal Conversion Material and Application in All-Optical Modulation and All-Optical Information Loading,   Adv.Optical Mater.  1900060 (1 of 7), 2019.

26. Broadly Tunable and Passively mode-locked Operations of Yb³⁺,Gd³⁺:SrF₂ laser， IEEE J of Selected Topics in Quantum Electronics, 25(4), 1100405, 2019.

25. 1886-nm mode-locked and wavelength tunable Tm-doped CaF₂ lasers，Optics Letters，44（1），134-137, 2019.

24. Watt-level continuous-wave and high-repetition-rate mid-infrared lasers based on a Er³⁺-doped Ca_0.8Sr_0.2F₂ crystal, Applied Physics Express 12, 115505 (2019).

23. Sensitive saturable absorber and optical switch of epsilon-near-zero medium， Applied Physics Express 12, 065504 (2019).

22. Mid-infrared Er:CaF₂–SrF₂ bulk laser Q-switched by MXene Ti₃C₂Tx absorber, Applied Physics Express 12, 085506 (2019).

21. Bismuth nanosheets as a Q -switcher for a mid-infrared erbium-doped SrF₂ laser，Photonics Research，2018，6（8），762-767.

20. Efficient continuous-wave and passive Q-switched mode-locked Er³⁺: CaF₂–SrF₂ lasers in the mid-infrared region, Optics Letters，2018，43,（10），2418-2421.

19. Efficient continuous-wave, broadly tunable and passive Q-switching lasers based on a Tm³⁺:CaF₂ crystal，Laser Phys. Lett. 15 (2018) 045803 (6pp).

18. Efficient mid-infrared laser under different excitation pump wavelengths, Opt. Lett. 2017, 42(19), 3908-3911.

17. Dual-wavelength Q-switched Er:SrF₂ laser with a black phosphorus absorber in the mid-infrared region，Opt. Express, 2016, 24(26), 30289-30295.

16. Mid-infrared Self-Q-switched Er,Pr:CaF₂ diode-pumped laser，Opt. Lett. 2016, 41(20), 4660-4663.

15. Dual-wavelength mode-locked operation on a novel Nd³⁺,Gd³⁺ :SrF₂ crystal laser， Optical Materials Express,  2016, 6(5) , 1513.

14. 2.8 μm passively Q-switched Er:CaF₂ diode-pumped laser，Optical Materials Express，2016, 6(5), 1570.

13. 2μm passively Q-switched laser based on black phosphorus, Optical Materials Express, 2016, 6(7), 2374-2379.

12. Efficient continuous-wave and 739 fs mode-locked laser on a novel Nd³⁺, La³⁺ co-doped SrF₂ disordered crystal，Laser Phys. Lett., 2016,13(9), 095802.

11. Tunable Yb:CaF₂ –SrF₂ laser and femtosecond mode-locked performance based on semiconductor saturable absorber mirrors, Appl. Opt.,2016,55(29), 8359-8362.

10. Single-walled carbon nanotube saturable absorber for a diode-pumped passively mode-locked Nd,Y:SrF₂ laser，Opt. Commun.  372 (2016) 76–79.

9. Monolayer graphene saturable absorber with sandwich structure for ultrafast solid-state laser, Opt. Engineering 2016,.55(8), 081304.

8. Compact Q-switched 2 μm Tm:GdVO₄ laser with MoS₂ absorber,   Photonics Research., 2015, 3(5), 256-259.

7. Continuous-wave and mode-locked operation of a diode-pumped Nd,La:CaF₂ laser，Optical Materials Express, 2015, 5(9), 1972-1978.

6. Operation of continuous wave and Q-switching on diode-pumped Nd,Y:CaF₂ disordered crystal, Optics & Laser Technology, 2015,69, 40-143.

5. Compact self-Q-switched laser near 2 μm, Opt. Commun.334(2015)287–289.

4. Graphene saturable absorber for diode pumped Yb:Sc₂SiO₅ mode-locked laser, Optics &Laser Technology 65(2015), 1–4.

3. 763fs Passively mode-locked Yb:Y₂SiO₅ laser with a grapheme oxide absorber mirror, Optics &Laser Technology 68(2015), 120–123.

2. Diode-pumped Yb,Y:CaF₂ laser mode-locked by monolayer graphene, Optics & Laser Technology, 2105,75, 83-86.

1. Diode-pumped tri-wavelength synchronously mode-locked Yb,Y:CaF₂ laser，   Applied Optics, 2015, 54(32), 9509-9512.