1. Arie, K., Kawashima, M., Araki, Y., Sato, M., Mori, K., Nakayama, Y., Ishiguma, K., Fuji-ie, Y., 2007. The sustainable system for global nuclear energy utilization. In: Proc. GLOBAL 2007, Idaho, USA, pp. 310–317 (CR_ROM).

2. Bathke, C.G., Jarvinen, G.D., Wallace, R.K., Ireland, J.R., Johnson, M.W., Sleaford, B.W., Ebbinghaus, B.B., Bradley, K.S., Collins, B.A., Smith, B.W., Prichard, A.W., 2008. Further assessment of the proliferation resistance of materials in advanced nuclear fuel cycles. In: Proc. 10th Information Exchange Mtg. on Actinide and Fission Product Partitioning and Transmutation, Oct 6–10, 2008, OECD (CR_ROM).

3. Bathke, C.G., Ebbinghaus, B.B., Sleaford, B.W., Wallace, R.K., Collins, B.A., Hase, K.R., Jarvinen, G.D., Bradley, K.S., Ireland, J.R., Johnson, M.W., Prichard, A.W., Smith, B.W., 2009. The attractiveness of materials in advanced nuclear fuel cycles for various proliferation and theft scenarios. In: Proc. GLOBAL 2009, Paris, France, pp. 2303–2311 (CR_ROM).

4. Beller, D.E., Krakowski, R.A., 1999. Burnup dependence of proliferation attribute of plutonium from spent LWR fuel. LANL document LA-UR-99-751.

5. Department of Energy, 1997. Nonproliferation and arms control assessment of weapons-usable fissile material storage and excess plutonium disposition alternatives. DOE/NN-007.