REFERENCES [1] Bennett, G.L., Lombardo, J.J. & Rock, B.J. (1981) Development and use of nuclear power sources for space applications, The Journal of the Astronautical Sciences, XXIX, pp. 321-342. [2] Bennett, G.L., Lombardo, J.J. & Rock, B.J. (1983) US radioisotope thermoelectric generator space operating experience, Paper 839171, in: Proceedings of the 18th Intersociety Energy Conversion Engineering Conference, Orlando, Florida, 21-26 August. [Reprinted (1984) as: US radioisotope thermoelectric generators in space, The Nuclear Engineer, 25 (2), pp. 49-58.] [3] Dick, P.J. & Davis, R.E. (1962) Radioisotope power system operation in the transit satellite, presentation at the American Institute of Electrical Engineers Summer General Meeting, Paper no. CP 62-1173, Denver, Colorado, 17-22 June. [4] Johns Hopkins University Applied Physics Laboratory (1980) Artificial Earth Satellites Designed and Fabricated by the Johns Hopkins University Applied Physics Laboratory, JHU/APL Report SDO-1600 [revised] (August). [5] Harvey, D.G., Dick, P.J. & Fink, C.R. (1963) Isotope-generator reliability and safety, Nucleonics, 21, No. 4. [6] Hittman Associates, Inc. (1963) Radioisotope powered space systems, US Atomic Energy Commission report NYO-3165-11, 23 August. [Additional discussion of survivability issues may be found in: Bennett, G.L. (1988) Survivability considerations in the design of space power systems. Proceedings of the 23rd Intersociety Energy Conversion Engineering Conference, Paper 889159, Denver, Colorado, 31 July-5 August. [7] Marietta, M. (1964) SNAP-9A Pu-238 fueled thermoelectric power supply for auxiliary space power, Final report, Volume 1, Martin Nuclear Division report MND-P-3098-1 (October). [8] Fihelly, A.W. & Baxter, C.F. (1971) Orbital performance of the SNAP-19 radioisotopic thermoelectric generator experiment, Proceedings of the 6th Intersociety Energy Conversion Engineering Conference, Paper 719152, Boston, MA, 3-5 August. [9] Jaffe, H. & O'Riordan, P. (1972) Isotope power systems for unmanned spacecraft applications, Proceedings of the 7th Intersociety Energy Conversion Engineering Conference, Paper 729088, San Diego, CA, 25-29 September. [10] Goebel, C.J. (1975) SNAP-19 Pioneer 10 and 11 RTG deep space performance, Record of the 10th Intersociety Energy Conversion Engineering Conference, Paper 759130, Newark, Delaware, 18-22 August. [11] Skrabek, E.A. & McGrew, J.W. (1988) Pioneer 10 and 11 RTG performance update, in: M. S. El-Genk & M. D. Hoover (Eds) Space Nuclear Power Systems 1987 (Malabar, FL, Orbit Book Co.). [12] Cesarone, R.J., Sergeyevsky, A.B. & Kerridge, S.J. (1984) Prospects for the Voyager extra-planetary and interstellar mission. Journal of the British Interplanetary Society, 37, No. 3. [13] Brittain, W.M. (1976) SNAP-19 Viking RTG mission performance, Proceedings of the 11th Intersociety Energy Conversion Engineering Conference, Paper 769255, State Line, Nevada, 12-17 September. [14] Brittain, W.M. & Skrabek, E.A. (1983) SNAP-19 RTG performance update for the Pioneer and Viking missions, Proceedings of the 18th Intersociety Energy Conversion Engineering Conference, Paper 839172, Orlando, FL, 21-26 August. [15] Britting, A.O. Jr (1981) Viking lander battery performance, degradation, and
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