[36] Anon. (1987) Advanced Nuclear Systems for Portable Power in Space, (Washington, DC, National Research Council, National Academy Press). [37] Rossin, A.D. (1987) Space nuclear power—a keystone to advancements in space, 4th Symposium on Space Nuclear Power Systems, Albuquerque, NM, 12 January. [38] Tsandoulas, G.N. (1987) Space-based radar, Science, 17 July, pp. 257-267. [39] Borger, W.U. & Massie, L.D. (1987) Military space power requirements: the next decade, 22nd IECEC, Paper No. 879001, 10-14 August, pp. 23-32. [40] Gabris, E.A. & Schnyer, A.D. (1987) Enabling bold mission initiatives: NASA space power technology, Ibid, Paper No. 879002, pp. 33-38. [41] Teren, F. (1987) Space station electric power system requirements and design, Ibid, Paper No. 879003, pp. 39-47. [42] DeYoung, R.J. et al. (1987) Preliminary conceptual design and weight of a 1 MW space-based laser power station utilizing a solar-pumped iodine laser, Ibid, Paper No. 879038, pp. 274-280. [43] Dearien, J.A. & Whitbeck, J.F. (1987) Multimegawatt nuclear systems for space power, Ibid, Paper No. 879359, pp. 468-477. [44] Angelo, J.A. & Buden, D. (1987) Space nuclear reactors—a post-operational disposal strategy, 38th IAF Congress, Paper IAF-87-237, Brighton, UK, 10-17 October. [45] Oberle, B. & Fischer, M. (1987) Aspects and possibilities of an integrated energy and media supply system on a hydrogen/oxygen basis for manned space stations in the low Earth orbit, Ibid, Paper No. IAF-87-241. [46] Koelle, H.H. (1987) On the life cycle cost and return on investment of a 500 GW global space power system, Ibid, Paper No. IAF-87-249. [47] Poher, C., Cacheux, J., Delaplace, J. & Schwartz, J.P. (1987) Status of the ERATO space nuclear power studies in France, Ibid, Paper No. IAF-87-255. [48] Peach, J.D. (1987) Challenges facing space reactor power system development, Report No. GAO/RCED-88-23, December (US Government Accounting Office). [49] Florig, H.K. (1988) The future battlefield: a blast of gigawatts?, IEEE Spectrum, March, pp. 50-54. [50] Anon (1988) Cryogenic fluid depot technology, Pathfinder Program Summary (NASA). [51] Anon (1988) Diode-Pumped Solid-State Lasers, 1st July (CA, Applied Solar Energy Corp., Industry). [52] Borger, W.U. & Massie, L.D. (1988) Space power technology for the 21st century, 23rd IECEC, 1-5 August, Session 5. [53] Reck, G. & Van Landingham, E.E. (1988) Space power technology to meet civil mission requirements, Ibid, Session 5. [54] Verga, R. & Buden, D. (1988) Progress toward the development of power generation and conditioning technology for SDIO, Ibid, Session 5. [55] Bennett, G.L. (1988) Proposed principles on the use of nuclear power sources in space, Ibid, Session 5. [56] Iles, P. (1988) Space solar cells—the moving target, Ibid, Session 9. [57] Boyle, D.R. (1988) An assessment of nuclear power systems in the range of 5 to 40 kWe, Ibid, Session 27. [58] Bailey, P.G. (1988) A comparison of 5-30 kWe space nuclear power systems and associated requirements, Ibid, Session 27. [59] Kudija, C.T. (1988) Solar dynamic energy conversion for space station electric power, Ibid, Session 28.
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