Prof. Jun Dong

Release Time: 2015-09-07      Visits: 946

Dr. Jun Dong

Professor of Optical Engineering, Physical Electronic

Vice Dean of School of Information Science and Technology

Xiamen University, Xiamen, 361005, P. R. of China

2012 - A Special Government Allowance Issued By the State Council of China

2009 - New Century Hundred, Thousand, Ten-thousand Talents Project in China

2009 - New Century Excellent Talents in University (NCET)

Office: Administration Building C514

Phone: +86-592-258-0004

E-mail: jdong@xmu.edu.cn

Education Background:

Ph. D., Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, 2000

MSc, Xi’an Jiaotong University, 1997

BS, Xi’an Jiaotong University, 1992

Research/Working Experiences:

Vice Dean of School of Information Science and Technology of Xiamen University, 2013/1 -

Professor, Department of Electronics Engineering, Xiamen University, 2008 -

Research Associate, Department of Physics, Heriot-Watt University, UK, 2007-2008

Senior Research Fellow, Institute for Laser Science, University of Electro-Communications, Japan, 2003-2007

Post-doctoral Research Fellow, CREOL/School of Optics, University of Central Florida, USA, 2001-2003

Assistant Research Professor, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, 2000-2001

Projects:

2015 - 2018 Investigation of IG mode controllable passively Q-switched microchip lasers based on composite laser materials, the National Natural Science Foundation of China (Grant No. 61475130).

2013 - 2016 Research on passively q-switched microchip lasers with high peak power based on Yb:YAG/Cr4+:YAG composite materials, supported by the National Natural Science Foundation of China (Grant No. 61275143).

2010 - 2013 Research on Yb:YAG/Cr4+:YAG ceramic microchip lasers with sub-nanosecond pulse width and peak power > 1 MW, supported by the New Century Excellent Talents in University (NCET) of China (Grant No. NCET-09-0669).

2010 - 2013 Research on polarization manipulated Yb:YAG solid-state lasers with crystalline-orientations, supported by the Ph.D. Programs Foundation of Ministry of Education of China (Grant No. 20100121120019).

2010 - 2013 Highly efficient, high-peak-power and sub-nanosecond passively q-switched Yb:YAG microchip lasers, supported by the Scientific Research Foundation for the Returned Overseas Chinese Scholars, State Education Ministry (SRF for ROCS, SEM) of China.

Research Interests:

Laser Technology

Passively Q-switched Microchip lasers and Their Applications

Ceramics Lasers

Nonlinear Optics

Charactarizations of Optical Materials


Honors:

2012 - A Special Government Allowance Issued By the State Council of China

2009 - New Century Excellent Talents in University (NCET)

2009 - New Century Hundred, Thousand, Ten-thousand Talents Project in China

2000 - Excellence Award of Dean’s Scholarship of Chinese Academy of Sciences

2000 - Outstanding Graduate in Shanghai City

Courses Taught:

Optoelectronic Display (for undergraduate students)

Quantum Electronics (for graduate students)

Laser Materials and Technology (for graduate students)

Student Supervised:

2015:

PhD students: Xiaolie Wang, Dimeng Chen

MSc student: Hongsen He, Xiaojie Wang

2014:

PhD students: Mingming Zhang

MSc student: Jie Xu, Boxin Lin

2013:

PhD students: Huihui Cheng; Shengchuang Bai;

MSc students: Yu He, Chaoyu Li, Dimeng Chen

2012:

MSc students: Guangyu Wang, Xiao Zhou, Lin Yang

2011:

PhD studentsYingying Ren;

MSc students: Ying Cheng, Shengchuang Bai

2010:

MSc students: Guozhang Xu, Mengjun Cao

2009:

MSc students: Jian Ma

Professional Activities:

OSA Senior Member

IEEE Member

Guest Professor, Institute for Laser Science, University of Electro-Communications, Japan (2008 -)

International Committee, International Laser Ceramics Symposium (2007 - )

Invited Reviewer for IEEE Journals such as IEEE Journal of Quantum Electronics, IEEE Photonics Technology Letters

Invited Reviewer for Applied Physics Letters and Journal of Applied Physics

Invited Reviewer for OSA Journals such as Optics Letters, Optics Express, Applied Optics and so on.

Selected Papers:

1. S.C. Bai, J. Dong*, GTR-KTP enhanced stable intracavity frequency doubled Cr,Nd:YAG self-Q-switched green laser, Laser Physics, 2015. 25(2): p. 025002.

2. G.Y. Wang, D.M. Chen, Y. Cheng, J. Dong*. Yb:YAG enhanced Cr,Yb:YAG self-Q-switched microchip laser under QCW laser-diode pumping, Optics & Laser Technology, 2015, 68:136-140.

3. J. Dong*, Y.Y. Ren and H.H. Cheng, 2014. >1 MW peak power, an efficient Yb:YAG/Cr4+:YAG composite crystal passively Q-switched laser, Lasers Physics, 24(5): 055801

4. Y.Y. Ren and J. Dong*, 2014. Passively Q-switched microchip lasers based on Yb:YAG/Cr4+:YAG composite crystal, Optics Communications, 312(0): 163-167

5. J. Dong*, Y.Y. Ren, G.Y. Wang, and Y. Cheng, 2013. Efficient laser performance of Yb:Y3Al5O12/Cr4+:Y3Al5O12 composite crystals, Laser Physics Letters, 10(10): 105817

6. J. Dong*, J. Ma, Y.Y. Ren, G.Z. Xu and A.A. Kaminskii , 2013. Generation of Ince-Gaussian beams in highly efficient, nanosecond Cr, Nd:YAG microchip lasers, Lasers Physics Letters, 10(8): 085803

7. S.C. Bai, J. Dong*, and X. Zhou, 2013. An efficient watt-class intracavity frequency doubled Cr,Nd:YAG/KTP miniature green laser, IEEE Photonics Technology Letters, 25(9): 848-850

8. J. Dong*, G.Y. Wang, Y. Cheng 2013. Highly efficient passively Q-switched Yb:YAG microchip lasers under high intensity laser-diode pumping. Laser Physics, 23(3): 035802.

9. A.A. Kaminskii, O. Lux, H. Rhee, H.J. Eichler, H. Yoneda, A. Shirakawa, K. Ueda, B. Zhao, J. Chen, J. Dong, J. Zhang 2012. Crystal-host Gd0.5Lu0.5VO4 for Ln3+-lasants: a new high-gain many-phonon c (3)-active tetragonal vanadate-SRS spectroscopy and nonlinear-laser effects. Applied Physics B-Lasers and Optics, 109(4): 649-658.

10. A.A. Kaminskii, O. Lux, H. Rhee, H.J. Eichler, K. Ueda, H. Yoneda, A. Shirakawa, B. Zhao, J. Chen, J. Dong, J. Zhang 2012. New manifestations of c (3)-nonlinear laser interactions in tetragonal LuVO4 and YbVO4 crystals attractive for SRS-converters and self-Raman lasers. Laser Physics Letters, 9(12): 879-887.

11. J. Dong*, G.Z. Xu, J. Ma, M.J. Cao, Y. Cheng, K. Ueda, H. Yagi, A.A. Kaminskii 2012. Investigation of continuous-wave and Q-switched microchip laser characteristics of Yb:YAG ceramics and crystals. Optical Materials, 34(6): 959-964.

12. Y. Cheng, J. Dong*, Y.Y. Ren 2012. Enhanced performance of Cr,Yb:YAG microchip laser by bonding Yb:YAG crystal. Optics Express, 20(22): 24803-24812.

13. J.Y. Zhou, J. Ma, J. Dong*, Y. Cheng, K. Ueda, A.A. Kaminskii 2011. Efficient, nanosecond self-Q-switched Cr,Yb:YAG lasers by bonding Yb:YAG crystal. Laser Physics Letters, 8(8): 591-597.

14. J. Ma, J. Dong*, K. Ueda, A.A. Kaminskii 2011. Optimization of Yb:YAG/Cr4+:YAG composite ceramics passively Q-switched microchip lasers. Applied Physics B-Lasers and Optics, 105(4): 749-760.

15. A.A. Kaminskii, H. Rhee, O. Lux, H.J. Eichler, L. Bohaty, P. Becker, J. Liebertz, K. Ueda, A. Shirakawa, V.V. Koltashev, J. Hanuza, J. Dong, D.B. Stavrovskii 2011. Many-phonon stimulated Raman scattering and related cascaded and cross-cascaded c(3)-nonlinear optical effects in melilite-type crystal Ca2ZnSi2O7. Laser Physics Letters, 8(12): 859-874.

16. A.A. Kaminskii, H. Rhee, O. Lux, H.J. Eichler, S.N. Bagayev, H. Yagi, K. Ueda, A. Shirakawa, J. Dong 2011. Stimulated Raman scattering in "garnet" Lu3Al5O12 ceramics - a novel host-materiel for Ln- and TM-lasant ions. Laser Physics Letters, 8(6): 458-464.

17. J. Dong*, J. Ma, Y.Y. Ren 2011. Polarization manipulated solid-state lasers with crystalline-orientations. Laser Physics, 21(12): 2053-2058.

18. J. Dong*, J. Ma, Y. Cheng, Y.Y. Ren, K. Ueda, A. Kaminskii 2011. Comparative study on enhancement of self-Q-switched Cr,Yb:YAG lasers by bonding Yb:YAG ceramic and crystal. Laser Physics Letters, 8(12): 845-852.

19. A.A. Kaminskii, S.N. Bagayev, K. Ueda, J. Dong, H.J. Eichler 2010. New passively Q-switched LD-pumped self-Raman laser with single-step cascade SE -> SRS wavelength conversion on the base of monoclinic Nd3+:Y2SiO5 crystal. Laser Physics Letters, 7(4): 270-279.

20. J. Dong*, K. Ueda, H. Yagi, A.A. Kaminskii 2010. Effect of polarization states on the laser performance of passively Q-switched Yb:YAG/Cr,Ca:YAG microchip lasers. IEEE Journal of Quantum Electronics, 46(1): 50-56.

21. J. Dong*, K. Ueda, A.A. Kaminskii 2010. Laser-diode pumped efficient Yb:LuAG microchip lasers oscillating at 1030 and 1047 nm. Laser Physics Letters, 7(10): 726-733.

22. A.A. Kaminskii, J. Dong*, K. Ueda, M. Bettinelli, M. Grinberg, D. Jaque 2009. Q-switched nanosecond Nd3+:Ca(NbO3)2 crystalline self-Raman laser with single-step cascade SE (lSE=1.0615 mm of 4F3/2 -> 4I11/2 channel) -> SRS (lSt1)=1.1741 mm of wSRS 904 cm-1 promotion vibration mode) wavelength conversion. Laser Physics Letters, 6(11): 782-787.

23. A.A. Kaminskii, J. Dong*, H.J. Eichler, J. Hanuza, K. Ueda, M. Maczka, H. Rhee, M. Bettinelli 2009. Laser and nonlinear-laser properties of undoped and Nd3+-doped orthorhombic Ca(NbO3)2 single crystals: new stimulated-emission performance and high-order picosecond stimulated Raman scattering covering more than two octave Stokes and anti-Stokes wavelengths. Laser Physics Letters, 6(11): 821-832.

24. A.A. Kaminskii, M. Bettinelli, J. Dong, D. Jaque, K. Ueda 2009. Nanosecond Nd3+:LuVO4 self-Raman laser. Laser Physics Letters, 6(5): 374-379.

25. A.A. Kaminskii, S.N. Bagaev, K. Ueda, A. Shirakawa, T. Tokurakawa, H. Yagi, T. Yanagitany, J. Dong 2009. Stimulated-emission spectroscopy of fine-grained "garnet" ceramics Nd3+:Y3Al5O12 in a wide temperature range between 77 and 650 K. Laser Physics Letters, 6(9): 682-687.

26. J. Dong*, K. Ueda, P.Z. Yang 2009. Multi-pulse oscillation and instabilities in microchip self-Q-switched transverse-mode laser. Optics Express, 17(19): 16980-16993.

27. J. Dong*, K. Ueda, H. Yagi, A.A. Kaminskii, Z. Cai 2009. Comparative study the effect of Yb concentrations on laser characteristics of Yb:YAG ceramics and crystals. Laser Physics Letters, 6(4): 282-289.

28. A.A. Kaminskii, H. Rhee, H.J. Eichler, K. Ueda, K. Takaichi, A. Shirakawa, M. Tokurakawa, J. Dong, H. Yagi, T. Yanagitani 2008. New nonlinear-laser effects in crystalline fine-grained ceramics based on cubic Sc2O3 and Lu2O3 oxides: second and third harmonic generation, and cascaded self-sum-frequency mixing in UV spectral region. Laser Physics Letters, 5(2): 109-113.

29. A.A. Kaminskii, V.V. Dolbinina, H. Rhee, H.J. Eichler, K. Ueda, K. Takaichi, A. Shirakawa, M. Tokurakawa, J. Dong, D. Jaque 2008. Nonlinear-laser effects in NH4H2PO4 (ADP) and ND4D2PO4 (DADP) single crystals: almost two-octave multi-wavelength Stokes and anti-Stokes combs, cascaded lasing in UV and visible ranges with the involving of the second and third harmonic generation. Laser Physics Letters, 5(7): 532-542.

30. A.A. Kaminskii, M.S. Akchurin, N. Tanaka, H.J. Eichler, H. Rhee, K. Ueda, K. Takaichi, A. Shirakawa, M. Tokurakawa, J. Dong, Y. Kintaka, S. Kuretake, Y. Sakabe 2008. Nonlinear-laser c(3)-and c(2)-effects in fine-grained highly transparent optical Ba(Mg,Zr,Ta)O3 ceramics and their microhardness. Physica Status Solidi a-Applications and Materials Science, 205(7): 1666-1671.

31. A.A. Kaminskii, M.S. Akchurin, P. Becker, K. Ueda, L. Bohaty, A. Shirakawa, M. Tokurakawa, K. Takaichi, H. Yagi, J. Dong, T. Yanagitani 2008. Mechanical and optical properties of Lu2O3 host-ceramics for Ln3+ lasants. Laser Physics Letters, 5(4): 300-303.

32. J. Dong*, K.I. Ueda, H. Yagi, A.A. Kaminskii 2008. Laser-diode pumped self-Q-switched microchip lasers. Optical Review, 15(2): 57-74.

33. J. Dong*, K.I. Ueda, A.A. Kaminskii 2008. Continuous-wave and Q-switched microchip laser performance of Yb:Y3Sc2Al3O12 crystals. Optics Express, 16(8): 5241-5251.

34. J. Dong*, A. Shirakawa, K. Ueda 2008. A crystalline-orientation self-selected linearly polarized Yb:Y3Al5O12 microchip laser. Applied Physics Letters, 93(10): 101105.

35. P. Becker, B. Van Der Wolf, L. Bohaty, J. Dong, A.A. Kaminskii 2008. Monoclinic LaBO2MoO4:Nd3+ - a new SE- and (c(2) + c(3))-active crystal for multifunctional lasers. Laser Physics Letters, 5(10): 737-745.

36. J.L. Li, J. Dong, M. Mitsurua, A. Shirakawa, K. Ueda 2007. Transient temperature profile in the gain medium of CW- and end-pumped passively Q-switched microchip laser. Optics Communications, 270(1): 63-67.

37. A.A. Kaminskii, L. Bohaty, P. Becker, J. Liebertz, L. Bayarjargal, J. Hanuza, H.J. Eichler, H. Rhee, J. Dong 2007. High-order stimulated Raman scattering and cascaded nonlinear lasing effects in crystals of (c(3)-> c(2))-active orthorhombic PbB4O7. Laser Physics Letters, 4(9): 660-667.

38. J. Dong*, K.I. Ueda, A. Shirakawa, H. Yagi, T. Yanagitani, A.A. Kaminskii 2007. Composite Yb:YAG/Cr4+:YAG ceramics picosecond microchip lasers. Optics Express, 15(22): 14516-14523.

39. J. Dong*, K.I. Ueda, A.A. Kaminskii 2007. Efficient passively Q-switched Yb:LuAG microchip laser. Optics Letters, 32(22): 3266-3268.

40. J. Dong*, A. Shirakawa, K.I. Ueda, H. Yagi, T. Yanagitani, A.A. Kaminskii 2007. Near-diffraction-limited passively Q-switched Yb:Y3Al5O12 ceramic lasers with peak power > 150 kW. Applied Physics Letters, 90(13): 131105.

41. J. Dong*, A. Shirakawa, K.I. Ueda, H. Yagi, T. Yanagitani, A.A. Kaminskii 2007. Laser-diode pumped heavy-doped Yb:YAG ceramic lasers. Optics Letters, 32(13): 1890-1892.

42. J. Dong*, A. Shirakawa, K.I. Ueda, A.A. Kaminskii 2007. Effect of ytterbium concentration on cw Yb:YAG microchip laser performance at ambient temperature - Part II: Theoretical modeling. Applied Physics B-Lasers and Optics, 89(2-3): 367-376.

43. J. Dong*, A. Shirakawa, K.I. Ueda, A.A. Kaminskii 2007. Effect of ytterbium concentration on cw Yb:YAG microchip laser performance at ambient temperature - Part I: Experiments. Applied Physics B-Lasers and Optics, 89(2-3): 359-365.

44. J. Dong*, A. Shirakawa, K. Ueda, H. Yagi, T. Yanagitani, A.A. Kaminskii 2007. Ytterbium and chromium doped composite Y3Al5O12 ceramics self-Q-switched laser. Applied Physics Letters, 90(19): 191106.

45. J. Dong*, A. Shirakawa, K. Ueda 2007. Switchable pulses generation in passively Q-switched multi longitudinal-mode microchip laser. Laser Physics Letters, 4(2): 109-116.

46. S.Z. Zhao, A. Rapaport, J. Dong, B. Chen, P.Z. Deng, M. Bass 2006. Temperature dependence of the 1.064-m stimulated emission cross-section of Cr:Nd:YAG crystal. Optics and Laser Technology, 38(8): 645-648.

47. J.L. Li, K. Ueda, J. Dong, M. Musha, A. Shirakawa 2006. Maximum value of the pulse energy of a passively Q-switched laser as a function of the pump power. Applied Optics, 45(21): 5377-5384.

48. D. Kouznetsov, J.F. Bisson, J. Dong, K.I. Ueda 2006. Surface loss limit of the power scaling of a thin-disk laser. Journal of the Optical Society of America B-Optical Physics, 23(6): 1074-1082.

49. J. Dong*, K.I. Ueda 2006. Observation of repetitively nanosecond pulse-width transverse patterns in microchip self-Q-switched laser. Physical Review A, 73(5): 053824.

50. J. Dong*, A. Shirakawa, K.I. Ueda 2006. Antiphase dynamics of sub-nanosecond microchip Cr,Yb:YAG self-Q-switched multimode laser. European Physical Journal D, 39(1): 101-106.

51. J. Dong*, A. Shirakawa, K.I. Ueda 2006. Sub-nanosecond passively Q-switched Yb:YAG/Cr4+:YAG sandwiched microchip laser. Applied Physics B-Lasers and Optics, 85(4): 513-518.

52. J. Dong*, A. Shirakawa, K. Ueda, H. Yagi, T. Yanagitani, A.A. Kaminskii 2006. Efficient Yb3+:Y3Al5O12 ceramic microchip lasers. Applied Physics Letters, 89(9): 091114.

53. J. Dong*, A. Shirakawa, K. Ueda, J. Xu, P.Z. Deng 2006. Efficient laser oscillation of Yb:Y3Al5O12 single crystal grown by temperature gradient technique. Applied Physics Letters, 88(16): 161115.

54. J. Dong*, A. Shirakawa, K. Takaichi, K. Ueda, H. Yagi, T. Yanagitani, A.A. Kaminskii 2006. All-ceramic passively Q-switched Yb:YAG/Cr4+:YAG microchip laser. Electronics Letters, 42(20): 1154-1156.

55. S.Z. Zhao, A. Rapaport, J. Dong, B. Chen, P.Z. Deng, M. Bass 2005. Temperature dependence of the 1.03 m stimulated emission cross section of Cr:Yb:YAG crystal. Optical Materials, 27(8): 1329-1332.

56. S. Huang, Y. Feng, J. Dong, A. Shirakawa, M. Musha, K. Ueda 2005. 1083 nm single frequency ytterbium doped fiber laser. Laser Physics Letters, 2(10): 498-501.

57. J. Dong*, K. Ueda 2005. Temperature-tuning Yb:YAG microchip lasers. Laser Physics Letters, 2(9): 429-436.

58. J. Dong*, K. Ueda 2005. Longitudinal-mode competition induced instabilities of Cr4+,Nd3+:Y3Al5O12 self-Q-switched two-mode laser. Applied Physics Letters, 87(15): 151102.

59. J. Dong*, A. Shirakawa, K. Ueda 2005. Numerical simulation of a diode-laser-pumped self-Q-switched Cr,Yb:YAG microchip laser. Optical Review, 12(3): 170-178.

60. J. Dong*, A. Shirakawa, S. Huang, Y. Feng, K. Takaichi, M. Musha, K. Ueda, A.A. Kaminskii 2005. Stable laser-diode pumped microchip sub-nanosecond Cr,Yb:YAG self-Q-switched laser. Laser Physics Letters, 2(8): 387-391.

61. J. Dong*, A. Rapaport, M. Bass, F. Szipocs, K. Ueda 2005. Temperature-dependent stimulated emission cross section and concentration quenching in highly doped Nd3+:YAG crystals. Physica Status Solidi a-Applications and Materials Science, 202(13): 2565-2573.

62. J. Dong*, J. Lu, A. Shirakawa, K. Ueda 2005. Optimization of the laser performance in Nd3+:YAG ceramic microchip lasers. Applied Physics B-Lasers and Optics, 80(1): 39-43.

63. J. Dong*, J.L. Li, S.H. Huang, A. Shirakawa, K. Ueda 2005. Multi-longitudinal-mode oscillation of self-Q-switched Cr,Yb:YAG laser with a plano-concave resonator. Optics Communications, 256(1-3): 158-165.

64. M. Bass, J. Dong 2005. Properties of diode laser pumps for high-power solid-state lasers. IEEE Journal of Quantum Electronics, 41(2): 183-186.

65. J. Dong*, J.R. Lu, K. Ueda 2004. Experiments and numerical simulation of a diode-laser-pumped Cr,Nd:YAG self-Q-switched laser. Journal of the Optical Society of America B-Optical Physics, 21(12): 2130-2136.

66. J. Dong*, P.Z. Deng 2004. Reply to comments on "Ti:sapphire crystal used in ultrafast lasers and amplifiers". Journal of Crystal Growth, 269(2-4): 641-642.

67. J. Dong*, P.Z. Deng 2004. Ti:sapphire crystal used in ultrafast lasers and amplifiers. Journal of Crystal Growth, 261(4): 514-519.

68. J. Dong*, M. Bass, C. Walters 2004. Temperature-dependent stimulated-emission cross section and concentration quenching in Nd3+-doped phosphate glasses. Journal of the Optical Society of America B-Optical Physics, 21(2): 454-457.

69. J. Dong*, P.Z. Deng 2003. Laser performance of monolithic Cr,Nd:YAG self-Q-switched laser. Optics Communications, 220(4-6): 425-431.

70. J. Dong*, P.Z. Deng 2003. The effect of Cr concentration on emission cross-section and fluorescence lifetime in Cr,Yb:YAG crystal. Journal of Luminescence, 104(1-2): 151-158.

71. J. Dong*, P.Z. Deng 2003. Temperature dependent emission cross-section and fluorescence lifetime of Cr,Yb:YAG crystals. Journal of Physics and Chemistry of Solids, 64(7): 1163-1171.

72. J. Dong*, M. Bass, Y.L. Mao, P.Z. Deng, F.X. Gan 2003. Dependence of the Yb3+ emission cross section and lifetime on temperature and concentration in yttrium aluminum garnet. Journal of the Optical Society of America B-Optical Physics, 20(9): 1975-1979.

73. J. Dong* 2003. Numerical modeling of CW-pumped repetitively passively Q-switched Yb:YAG lasers with Cr:YAG as saturable absorber. Optics Communications, 226(1-6): 337-344.

74. H.W. Qiu, P.Z. Yang, J. Dong, P.Z. Deng, J. Xu, W. Chen 2002. The influence of Yb concentration on laser crystal Yb:YAG. Materials Letters, 55(1-2): 1-7.

75. Y. Kalisky, C. Labbe, K. Waichman, L. Kravchik, U. Rachum, P. Deng, J. Xu, J. Dong, W. Chen 2002. Passively Q-switched diode-pumped Yb:YAG laser using Cr4+-doped garnets. Optical Materials, 19(4): 403-413.

76. J. Dong*, P.Z. Deng, Y.P. Liu, Y.H. Zhang, G.S. Huang, F.X. Gan 2002. Performance of the self-Q-switched Cr,Yb:YAG laser. Chinese Physics Letters, 19(3): 342-344.

77. J. Dong*, P.Z. Deng, M. Bass 2002. Cr,Nd:YAG self-Q-switched laser with high efficiency output. Optics and Laser Technology, 34(7): 589-594.

78. J. Dong*, P.Z. Deng, Y.H. Zhang, Y.P. Liu, J. Xu, W. Chen 2001. Ti:sapphire laser pumped Cr4+,Nd3+:YAG self-Q-switched microchip laser. Journal of Inorganic Materials, 16(1): 139-142.

79. J. Dong*, P.H. Deng, Y.P. Liu, Y.H. Zhang, J. Xu, W. Chen, X.L. Xie 2001. Passively Q-switched Yb:YAG laser with Cr4+:YAG as the saturable absorber. Applied Optics, 40(24): 4303-4307.

80. J. Dong*, P. Deng, F. Gan, Y. Urata, R. Hua, S. Wada, H. Tashiro 2001. Highly doped Nd:YAG crystal used for microchip lasers. Optics Communications, 197(4-6): 413-418.

81. J. Dong*, J.G. Zhou, H. Wang, J.T. Ling, L.F. Shi 2000. An investigation of pitting initiation mechanism of 1Cr12Ni2W1Mo1V steel after induction hardening. Journal of Materials Science, 35(11): 2653-2657.

82. J. Dong*, P.Z. Deng, Y.H. Zhang, Y.P. Liu, J. Xu, W. Chen 2000. Ti:sapphire laser-pumped self-Q-switched Cr,Nd:YAG laser with single-longitudinal-mode output. Microwave and Optical Technology Letters, 26(2): 124-127.

83 J. Dong*, P.Z. Deng, J. Xu 2000. Spectral and luminescence properties of Cr4+ and Yb3+ ions in yttrium aluminum garnet (YAG). Optical Materials, 14(2): 109-113.

84. J. Dong*, P.Z. Deng, Y.T. Lu, Y.H. Zhang, Y.P. Liu, J. Xu, W. Chen 2000. Laser-diode-pumped Cr4+,Nd3+:YAG with self-Q-switched laser output of 1.4 W. Optics Letters, 25(15): 1101-1103.

85. J. Dong*, P.Z. Deng, J. Xu 1999. The growth of Cr4+,Yb3+:yttrium aluminum garnet (YAG) crystal and its absorption spectra properties. Journal of Crystal Growth, 203(1-2): 163-167.

Books and Patants:

1. Jun Dong, Ken-ichi Ueda, Hideki Yagi, and Alexander A Kaminskii, “Concentration-Dependent Laser Performance of Yb:YAG Ceramics and Passively Q-switched Yb:YAG/Cr,Ca:YAG Lasers”, Chapter 1 in Advances in Solid-State Lasers: Development and Applications, Edited by Mikhail Grishin, Intech, India, 2010.

2. Jun Dong, Michael Bass, “Ring geometry diode laser arrays and method”, US patent, US 7,126,974 B1 (Oct. 4, 2006).

3. Jun Dong, “Crystalline orientation selected polarization manipulated microchip lasers”, Chinese patent, CN 102074886A (May 25, 2010)

4. Jun Dong, Jian Ma, Ying Cheng, Yingying Ren, “Yb:YAG/Cr,Yb:YAG self-Q-switched lasers”, Chinese patent, CN 102545027A (July 4, 2012).

Copyright © 2012 Prof.Jun Dong's Group, Xiamen University, All Rights Reserved
Snail Address:Hiayun Campus, Xiamen University, Xiamen, 361005, P.R. of China
E-mail:jdong@xmu.edu.cn   Tel:0592-2580004