快Z箍缩中子源混合堆界面研究进展
陈敬平, 王雄. 快Z箍缩中子源混合堆界面研究进展[J]. 强激光与粒子束, 2011, 23(7): 1713.
Chen Jingping, Wang Xiong. Development of interface options of hybrid reactor driven with fast Z-pinch neutron source[J]. High Power Laser and Particle Beams, 2011, 23(7): 1713.
[1] Sanford T W L, Mosher D, De Groot J S, et al. X-ray emission from a high-atomic-number Z-pinch plasma created from compact wire arrays[R]. SAND96-0222, 1996.
[2] 萨尔柯夫 Б Ю.惯性约束核聚变现状与能源前景[M].北京:原子能出版社, 2008.(Шарков Б Ю. Status and perspective of nuclear fusion energy with initial confinement. Beijing: Atomic Energy Press, 2008)
[3] Cipiti B B. Fusion transmutation of waste and the role of the in-Zinerator in the nuclear fuel cycle[R]. SAND2006-3522, 2006.
[4] Cipiti B B, Cleary V D, Cook J T, et al. Fusion transmutation of waste: design and analysis of the in-zinerator concept[R].SAND2006-6590, 2006.
[5] Spielman R B, Baldwin G T, Cooper G, et al. D-D fusion experiment using fast Z-pinch[R]. SAND98-0705, 1998.
[6] Highlights of the pulsed power inertial confinement fusion program[EB/OL]. http: //www. Sandia gov. com,1999.
[7] Coverdale C A, Deeney C, Velikovich A L, et al. Neutron production and implosion characteristics of a deuterium gas-puff Z-pinch[J]. Phys of Plasma, 2007, 14:022706.
[8] Coverdale C A, Deeney C, Velikovich A L, et al. Deuterium gas-puff a-pinch implosion on the Z accelerator[J]. Phys of Plasma, 2007, 14:056309.
[9] Slutz S A, Peterson K J, Vesey R A, et al. Integrated two-dimensional simulations of dynamic hohlraum driven inertial fusion capsule implosions[J]. Phys of Plasmas, 2006, 13:102701.
[10] Cooper G W, Ruiz C L. NIF total neutron yield diagnostic[J]. Rev Sci Instrum, 2001, 72(1):814-817.
[11] Leeper R J, Ruiz C L, Chandler G A, et al. ZR neutron diagnostic suite[J]. Journal of Physics, 2008, 112:032076.
[12] Parma E J, Peters C D, Smith D L, et al. Operational aspects of an externally driven neutron multiplier assembly concept using a Z-pinch 14-MeV neutron source (ZEDNA)[R]. SAND2007-7307, 2007.
[13] Parma E J, Coats R L, Dorsey D J, et al. An externally driven neutron multiplier assembly concept using a Z-pinch 14-MeV neutron source (ZEDNA)[R]. SAND2007-1679, 2007.
陈敬平, 王雄. 快Z箍缩中子源混合堆界面研究进展[J]. 强激光与粒子束, 2011, 23(7): 1713. Chen Jingping, Wang Xiong. Development of interface options of hybrid reactor driven with fast Z-pinch neutron source[J]. High Power Laser and Particle Beams, 2011, 23(7): 1713.
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