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    Journals >Laser & Optoelectronics Progress >Volume 52 >Issue 4 >Page 40001 > Article
    • Laser & Optoelectronics Progress
    • Vol. 52, Issue 4, 40001 (2015)
    Research Status of Conceptual Design of Diode-Pumped Solid-State Laser Driver for LIFE
    Xiao kaibo1、2、*, Yuan Xiaodong1, Jiang Xinying1, Yan Xiongwei1, Wang Zhenguo1, Li Mingzhong1, Zheng Jiangang1, and Zheng Wanguo1
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
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    DOI: 10.3788/lop52.040001 Cite this Article Set citation alerts
    Xiao kaibo, Yuan Xiaodong, Jiang Xinying, Yan Xiongwei, Wang Zhenguo, Li Mingzhong, Zheng Jiangang, Zheng Wanguo. Research Status of Conceptual Design of Diode-Pumped Solid-State Laser Driver for LIFE[J]. Laser & Optoelectronics Progress, 2015, 52(4): 40001 Copy Citation Text show less
    References

    [1] M J Edwards, P K Patel, J D Lindl, et al.. Progress towards ignition on the National Ignition Facility [J]. Phys Plasmas, 2013, 20(7): 070501.

    [2] J L Miquel, C Lion, P Vivini. The LMJ program: overview and status of LMJ & PETAL Projects [C]. CLEO, 2013.

    [3] Gangyao Xiao, Dianyuan Fan, Shiji Wang, et al.. SG-II solid-state laser ICF system [C]. SPIE, 1999, 3492: 890-895.

    [4] Wanguo Zheng, Xiaomin Zhang, Xiaofeng Wei, et al.. Status of the SG- III solid- state laser facility [J]. J Physics: Conference Series, 2008, 112(3): 032009.

    [5] Yanqi Gao, Weixin Ma, Baoqiang Zhu, et al.. Status of the SG- II- UP laser facility [C]. IEEE Photonics Conference (IPS), 2013: 73-74.

    [6] E I Moses, the NIC Collaborators. The national ignition campaign: status and progress [J]. Nuclear Fusion, 2013, 53(10): 104020.

    [7] E Moses, T D Rubia, E Storm, et al.. A Sustainable Nuclear Fuel Cycle Based on Laser Inertial Fusion Energy [R]. 2009, LLNL-CONF-413798.

    [8] M Dunne. A high-power laser fusion facility for Europe [J]. Nat Phys, 2006, 2(1): 2-5.

    [9] Y Kozaki. Power plant concepts and chamber issues for fast ignition direct- drive targets [J]. Fusion Science and Technology, 2006, 49(3): 542-552.

    [10] E I Moses. Ignition on the national ignition facility: a path towards inertial fusion energy [J]. Nuclear Fusion, 2009, 49(10): 104022.

    [11] W F Krupke. Solid-state laser driver for an ICF reactor [J]. Fusion Technology, 1989, 15(2): 377-382.

    [12] C D Orth, R J Beach, C M Bibeau, et al.. Design modeling of the 100- J diode- pumped solid state laser for project Mercury [C]. SPIE, 1998, 3265: 114-129.

    [13] A Bayramian, P Armstrong, E Ault, et al.. The mercury project: a high average power, gas- cooled laser for inertial fusion energy development [J]. Fusion Science and Technology, 2007, 52(3): 383-387.

    [14] Yu Haiwu, Xu Meijian, Duan Wentao, et al.. Research progress of laser drivers for inertial fusion energy [J]. Laser & Optoelectronics Progress, 2006, 43(9): 55-62.

    [15] Wang Mingzhe, Ding Lei, Luo Yiming, et al.. Recent progress of laser diode- pumped solid- state laser drivers for inertial fusion energy [J]. Laser & Optoelectronics Progress, 2008, 45(10): 56-63.

    [16] A Bayramian, S Aceves, T Anklam, et al.. Compact, efficient laser systems required for laser inertial fusion energy [J]. Fusion Science and Technology, 2011, 60(1): 28-48.

    [17] T M Anklam, M Dunne, W R. Meier, et al.. Life: the case for early commercialization of fusion energy [J]. Fusion Science and Technology, 2011, 60(1): 66-71.

    [18] M Dunne, E I Moses, P Amendt, et al.. Timely delivery of laser inertial fusion energy (life) [J]. Fusion Sci Technol, 2011, 60(1): 19-27.

    [19] A Bayramian, S Aceves, T Anklam, et al.. A compact line replaceable unit laser driver for laser inertial fusion energy [C]. CLEO, 2012: 1-2.

    [20] A C Erlandson, S M Aceves, A J Bayramian, et al.. Comparison of Nd:phosphate glass, Yb:YAG and Yb:S- FAP laser beamlines for laser inertial fusion energy (LIFE) [J]. Opt Mater Express, 2011, 1(7): 1341-1352..

    [21] A Bayramian. Progress towards a compact laser driver for laser inertial fusion energy [R]. 7th International Workshop HEC-DPSSL, CA, 2012.

    [22] R Deri, J Geske, M Kanskar, et al.. Semiconductor Laser Diode Pumps for Inertial Fusion Energy Lasers [R]. 2011, LLNL-TR-465931.

    [23] R Feeler, J Junghans, E Stephens. Low-cost diode arrays for the LIFE project [C]. SPIE, 2011, 7916: 791608.

    [24] A L Bullington, S B Sutton, A J Bayramian, et al.. Thermal birefringence and depolarization compensation in glassbased high-average-power laser systems [C]. SPIE, 2011, 7916: 79160V.

    [25] N Traggis, N Claussen, A Bayramian, et al.. Improved characterization of transmitted wavefront error on CADB (R) epoxy-free bonded solid state laser materials [C]. SPIE, 2011, 7912: 79121K.

    [26] A J Bayramian, R W Campbell, C A Ebbers, et al.. A laser technology test facility for laser inertial fusion energy (LIFE) [C]. The Sixth International Conference on Inertial Fusion Sciences and Applications, 2010: 244.

    [27] A Bayramian, B Deri, S Fulkerson, et al.. Compact, efficient, low- cost diode power conditioning for laser inertial fusion energy [C]. SPIE, 2011, 7916: 79160B.

    [28] S Banerjee, K Ertel, P D Mason, et al.. High- efficiency 10 J diode pumped cryogenic gas cooled Yb:YAG multislab amplifier [J]. Opt Lett, 2012, 37(12): 2175-2177.

    [29] T Goncalves- Novo, D Albach, B Vincent, et al.. 14 J/2 Hz Yb3 + :YAG diode pumped solid state laser chain [J]. Opt Express, 2013, 21(1): 855-866.

    [30] A Lucianetti, M Divoky, M Sawicka, et al.. HiLASE cryogenically- cooled diode- pumped laser prototype for inertial fusion energy [C]. SPIE, 2013, 8602: 860208.

    [31] J Kawanaka, N Miyanaga, T Kawashima, et al.. New concept for laser fusion energy driver by using cryogenicallycooled Yb:YAG ceramic [C]. 5th International Conference on IFSA, 2008, 112: 032058.

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    Xiao kaibo, Yuan Xiaodong, Jiang Xinying, Yan Xiongwei, Wang Zhenguo, Li Mingzhong, Zheng Jiangang, Zheng Wanguo. Research Status of Conceptual Design of Diode-Pumped Solid-State Laser Driver for LIFE[J]. Laser & Optoelectronics Progress, 2015, 52(4): 40001
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