Spagnolo D A, Everatt A E, Seto P W K, et al. Choice of a process design for simultaneous detritiation and upgrading of heavy water for advanced neutron source. Fusion Technol, 1988, 14: 501-506 [2] Lu G D, Jiang G Q, Shen C S. An experiment investigation for hydrogen and deuterium separation by thermal cycling absorption process. Fusion Sci Technol, 1995, 28: 672-675 [3] Alekseev I A, Bondarenko S D, Fedorchenko O A, et al. The CECE experimental industrial plant for reprocessing of tritiated water wastes. Fusion Sci Technol, 2002, 41: 1097-1101 [4] 钟正坤, 张莉, 朱正和, 等. 氢-水同位素交换分离因子理论计算. 原子能科学技术, 2004, 38: 148-151 [5] 罗阳明, 王和义, 刘俊, 等. 氢同位素氘从气相到液相的催化交换实验研究. 原子能科学技术, 2005, 39: 49-52 [6] Pyper J W, Chritensen L D. Equilubrium constants of hydrogen-deuterium-tritium self-exchange reactions in water vapor as studied with a molecular-beam quadrupole mass filter. J Chem Phys, 1975, 62: 2596-2599 [7] Wang W L, Santos E, Brandao J. Theoretical rate coefficients for the exchange reaction OH+D→OD+H[J].J Chem Phys.2006, 124:074305-074309 [8] Chu T S, Zhang X, Han K L. A quantum wave-packet study of intersystem crossing effects in the O(3P2,1,0,1D2)+H2 reaction[J].J Chem Phys.2005, 122:214301-214306 [9] Chu T S, Zhang Y, Han K L. The time-dependent quantum wave packet approach to the electronically nonadiabatic processes in chemical reactions. Int Rev Phys Chem, 2006, 25: 201-235 [10] 蒙大桥, 蒋刚, 刘晓亚, 等. Pu3 体系的结构与势能函数. 物理学报, 2001, 50: 1268-1273 [11] 薛卫东, 朱正和, 冉鸣, 等. U+CO 体系的分子反应动力学研究. 物理学报, 2002, 51: 2503-2508 [12] 罗德礼, 蒙大桥, 朱正和. LiH, LiO 和LiOH 的分析势能函数与分子反应动力学. 物理学报, 2003, 52: 2438-2442 [13] 刘晓亚, 朱正和, 蒋刚, 等. 铀与氢气的反应动力学. 中国科学G 辑: 物理学 力学 天文学, 2005, 35: 415-423 [14] 冯兴, 朱正和, 刘晓亚, 等. SiH2 体系的分子反应动力学, 物理学报, 2009, 58: 8217-8223 [15] 朱志艳, 朱正和, 张莉, 等. DTO 分子结构与势能函数. 中国科学G 辑: 物理学 力学 天文学, 2009, 39: 378-381 [16] 高涛, 王红艳, 朱正和, 等. PuO2 体系的分子反应动力学研究. 原子与分子物理学报, 1999, 16: 162-170
[5]
Spagnolo D A, Everatt A E, Seto P W K, et al. Choice of a process design for simultaneous detritiation and upgrading of heavy water for advanced neutron source. Fusion Technol, 1988, 14: 501-506
[6]
Lu G D, Jiang G Q, Shen C S. An experiment investigation for hydrogen and deuterium separation by thermal cycling absorption process. Fusion Sci Technol, 1995, 28: 672-675
[7]
Alekseev I A, Bondarenko S D, Fedorchenko O A, et al. The CECE experimental industrial plant for reprocessing of tritiated water wastes. Fusion Sci Technol, 2002, 41: 1097-1101
Pyper J W, Chritensen L D. Equilubrium constants of hydrogen-deuterium-tritium self-exchange reactions in water vapor as studied with a molecular-beam quadrupole mass filter. J Chem Phys, 1975, 62: 2596-2599
[11]
Wang W L, Santos E, Brandao J. Theoretical rate coefficients for the exchange reaction OH+D→OD+H[J].J Chem Phys.2006, 124:074305-074309
[12]
Chu T S, Zhang X, Han K L. A quantum wave-packet study of intersystem crossing effects in the O(3P2,1,0,1D2)+H2 reaction[J].J Chem Phys.2005, 122:214301-214306
[13]
Chu T S, Zhang Y, Han K L. The time-dependent quantum wave packet approach to the electronically nonadiabatic processes in chemical reactions. Int Rev Phys Chem, 2006, 25: 201-235
