[60] Proust, E. et al. (1988) Space nuclear power studies in France: Overview of the ERATO program, Ibid, Session 40. [61] Joslofs, A.T. & Palmer, R.S. (1988) SP-100 space reactor power system scalability, Ibid, Session 54. [62] Sovie, R.J. (1988) Extending SP-100 reactor power system capability, Ibid, Session 54. [63] Anderson, P.M. & Dougherty, M.P. (1988) Multimegawatt power transmission/ distribution study. Ibid, Session 66. [64] Kotas, J.F. (1988) Space-based multimegawatt chemical power: a critical comparison against alternative open-cycle power systems, Ibid, Session 66. [65] DeYoung, R.J. (1988) One-Megawatt solar pumped and electrically driven lasers for space power transmissiin, Ibid, Session 66. [66] Christian, J.L., Ponchak, G.E. & Cull, R.C. (1988) The role of high- frequency superconducting devices for free-space power transmission systems, Ibid, Session 69. [67] Fayman, K.A. & Rudnick, S.J. (1988) High temperature superconducting magnetic energy storage: technology status and projections for future NASA missions, Ibid, Session 69. [68] Swallom, D.W. & McClashe, A.W. (1988) MHD power systems for space applications, Ibid, Session 75. [69] Hagey, G. (1988) Fuel cells as energy storage devices for multimegawatt space power systems, Ibid, Session 81. [70] Grey, J. (Ed.) (1989) AIAA Assessment of SDI Technologies, 1 April (Washington, DC, AIAA).
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