References

Compiled by James McSpadden
mcspadden@tamu.edu
(409) 845-5409

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  1. W. C. Brown, "A survey of the elements of power transmission by microwave beam," in 1961 IRE International Convention Record, 1961, vol. 9, Part 3, pp. 93- 106.

  2. W. C. Brown, "Experimental airborne microwave supported platform," Contract No. AF30(602)-3481, Dec. 1965.

  3. L. Stark, "Radiation impedance of a dipole in a infinite planar phased array," Radio Science, vol. 1, no. 3, pp. 361-377, March 1966.

  4. W. C. Brown, "Experimental system for automatically positioning a microwave- supported platform," Contract No. AF30(602)-4310, June 1968.

  5. W. C. Brown, "Microwave powered aerospace vehicles," in Microwave Power Engineering, vol. II, E.C. Okress, Ed. New York: Academic Press, 1968, pp. 273- 275.

  6. P. E. Glaser, "Power from the sun; its future," Science, vol. 162, no. 3856, pp. 857- 861, Nov. 22, 1968.

  7. W. C. Brown, "Experiments involving a microwave beam to power and position a helicopter," IEEE Transactions on Aerospace Electronic Systems, vol. AES-5, no. 5, pp. 692-702, Sept. 1969.

  8. G. Goubau, "Microwave power transmission from an orbiting solar power station," Journal of Microwave Power, vol. 5, no. 4, pp. 223-231, 1970.

  9. W. C. Brown, "The receiving antenna and microwave power rectification," Journal of Microwave Power, vol. 5, no. 4, pp. 269-292, 1970.

  10. W. C. Brown, "A microwave beam power transfer and guidance system for use in an orbital astronomy support facility," Raytheon Company, Waltham, MA, Tech. Report No. PT-2931, NASA Contract No. NAS 8-25374, Feb. 1971.

  11. W. C. Brown, "Progress in the efficiency of free-space microwave power transmission," Journal of Microwave Power , vol. 7, no. 3, pp. 223-230, 1972.

  12. W. C. Brown, "Satellite power stations: a new source of energy?" IEEE Spectrum, vol. 10, no. 3, pp. 38-47, March 1973.

  13. W. C. Brown, "Adapting microwave techniques to help solve future energy problems," IEEE Transactions on Microwave Theory and Techniques, vol. MTT- 21, no. 12, pp. 753-763, Dec. 1973.

  14. W. C. Brown, "The technology and application of free-space power transmission by microwave beam," Proceedings of the IEEE, vol. 62, no. 1, pp. 11-25, Jan. 1974.

  15. W. C. Brown and O. E. Maynard, "The adaptation of free-space power transmission technology to the SSPS concept," in AIAA-AAS Solar Energy for Earth Conference, AIAA paper no. 75-642, April 1975.

  16. R. M. Dickinson and W. C. Brown, "Radiated microwave power transmission system efficiency measurements," Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA, Tech. Memorandum 33-727, May 1975.

  17. W. C. Brown, "Free-space microwave power transmission study, combined phase III and final report," Raytheon Company, Waltham, MA, Tech. Report No. PT- 4601, NASA Contract No. NAS-8-25374, Sept. 1975.

  18. Reception-conversion subsystem (RXCV) for microwave power transmission system, final report, Raytheon Company, Sudbury, MA, Tech. Report No. ER75-4386, JPL Contract No. 953968, NASA Contract No. NAS 7-100, Sept. 1975.

  19. R. M. Dickinson, "Evaluation of a microwave high-power reception-conversion array for wireless power transmission," Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA, Tech. Memo 33-741, Sept. 1975.

  20. J. J. Nahas, "Modeling and computer simulation of a microwave-to-dc energy conversion element," IEEE Transactions on Microwave Theory Tech., vol. MTT- 23, no. 12, pp. 1030-1035, Dec. 1975.

  21. W. C. Brown, "Optimization of the efficiency and other properties of the rectenna element," in 1976 IEEE MTT-S International Microwave Symposium, 1976, pp. 142-144.

  22. R. M. Dickinson, "Performance of a high-power, 2.388 GHz receiving array in wireless power transmission over 1.54 km," in 1976 IEEE MTT-S International Microwave Symposium, 1976, pp. 139-141.

  23. W. C. Brown, "Minimization of initial cost of microwave power transmission system," Raytheon Company, Waltham, MA, Tech. Report PT-4843, July 1976.

  24. W. C. Brown, "Electronic and mechanical improvement of the receiving terminal of a free-space microwave power transmission system," Raytheon Company, Wayland, MA, Tech. Report PT-4964, NASA Report No. CR-135194, NASA Contract No. NAS 3-19722, Aug. 1977.

  25. W. C. Brown, "Microwave energy transmission," in Third Princeton/AIAA Conference on Space Manufacturing Facilities, Princeton, NJ, paper 77-540, May 1977.

  26. R. M. Dickinson, "The beamed power microwave transmitting antenna," IEEE Transactions on Microwave Theory and Techniques, vol. MTT-26, no. 5, pp. 335- 340, May 1978.

  27. W. C. Brown, "The design of large-scale terrestrial rectennas for low-cost production and erection," ," in 1978 IEEE MTT-S International Microwave Symposium, 1978.

  28. R. J. Gutmann and J. M. Borrego, "Solar power satellite rectenna design study: directional receiving elements and parallel-series combining analysis," NASA CR- 151866, Dec. 1978.

  29. W. C. Brown, "A profile of power transmission by microwaves," Astronautics & Aeronautics, May 1979.

  30. W. C. Brown, "Solar power satellites: microwaves deliver the power," IEEE Spectrum, pp. 36-42, June 1979.

  31. R. C. Chernoff, "Large active retrodirective arrays for space applications," IEEE Transactions on Antennas and Propagation, vol. AP-27, no. 4, pp. 489-496, July 1979.

  32. S. W. Fordyce and W. C. Brown, "Applications of free-space microwave power transmission," Astronautics & Aeronautics, Sept. 1979.

  33. R. J. Gutmann and J. M. Borrego, "Power combining in an array of microwave power rectifiers," IEEE Transactions on Microwave Theory and Techniques, vol. MTT-27, no. 12, pp. 958-968, Dec. 1979.
  34. W. C. Brown, "The history of the development of the rectenna," in Space Power Symposium, 1980, pp. 271-280.

  35. R. V. Gelsthorpe and P. Q. Collins, "Increasing power input to a single solar power satellite rectenna by using a pair of satellites," Electronics Letters, vol. 16, no. 9, pp. 311-313, April 24, 1980.

  36. W. C. Brown, "Microwave beamed power technology improvement - final report," JPL Contract No. 955104, Contract Report No. NAS 7-100, May 1980.

  37. R. M. Dickinson, "Beamed microwave power transmitting and receiving subsystems radiation characteristics," Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA, JPL Publication 80-11, June 1980.

  38. "The final proceedings of the solar power satellite program review," NASA TM- 84183, July 1980

  39. W. C. Brown, "Design definition of a microwave power reception and conversion system for use on a high altitude powered platform," Raytheon Company, Wallops Flight Facility, VA, NASA CR-156866, NASA Contract No. NAS 6-3006, July 1980.

  40. W. C. Brown, "Satellite power system (SPS) magnetron tube assessment study," Contract Report NAS 8-33157, July 1980.

  41. "Satellite power system (SPS) initial insurance evaluation," Report No. DOE/ER/21059-01, Sept. 1980.

  42. "Environmental impacts of the satellite power system (SPS) on the middle atmosphere," Report No. DOE/ER/110035-01, Oct. 1980.

  43. "Satellite power system. Concept development and evaluation program, vol. 1 - technical assessment summary report," NASA TM-58232, Nov. 1980.

  44. R. H. Dietz, "Solar power satellite microwave power transmission and reception," NASA CP-2141, Dec. 1980.

  45. R. H. Dietz, "Solar power satellite microwave power transmission and reception," NASA CP-2141, Dec. 1980.

  46. A. P. Daurio, "Determinants of a strategy for international participation in an SPS program," Report No. DOE/ER/10041-T 13, Dec. 1980.

  47. R. J. Harron and R. C. Wadle, "Solar power satellite cost estimate," NASA TM- 58231, Jan. 1981.

  48. H. Benson and L. M. Jenkins, "Satellite power system. Concept development and evaluation program, vol. 6 - construction and operations," NASA TM-58233, May 1981.

  49. W. C. Brown, "The solar power satellite as a source of base load electrical power," IEEE Transactions on Power Apparatus and Systems, vol. PAS-100, no. 6, June 1981.

  50. "Satellite power system. Concept development and evaluation program, vol. 2 - system definition," NASA TM-58236, July 1981.

  51. R. H. Dietz, G. D. Arndt, J. W. Seyl, L. Leopold, and J. S. Kelley, "Satellite power system. Concept development and evaluation program, vol. 3 - power transmission and reception. Technical summary and assessment," NASA RP-1076, July 1981.

  52. P. Foldes, "The solar power satellite - an overview," in Proceedings of Earth- Oriented Sapce Activities and Their Legal Implications," Oct. 15-16, 1981, pp. 123- 166.

  53. F. H. Knelman, "Solar power satellites: technical, social and political implications," in Proceedings of Earth-Oriented Sapce Activities and Their Legal Implications," Oct. 15-16, 1981, pp. 167-203.

  54. K.-H. Bockstiegel, "Energy from space," in Proceedings of Earth-Oriented Sapce Activities and Their Legal Implications," Oct. 15-16, 1981, pp. 204-219.

  55. "Satellite power system. Concept development and evaluation program, vol. 4 - energy conversion and power management," NASA TM-58237, Nov. 1981.

  56. "Satellite power system. Concept development and evaluation program, vol. 7 - space transportation," NASA TM-58238, Nov. 1981.

  57. Solar Power Satellites, Office of Technology Assessment, OTA-E-144, Aug. 1981.

  58. G. M. Hanley, "Space shuttle and solar power satellite systems," in Update on Space, B. J. Bluth and S. R. McNeal, Ed., Granada Hills, CA: National Behavior Systems, 1981, pp. 107-125.

  59. W. C. Brown, "Status of the microwave power transmission components for the solar power satellite," IEEE Transactions on Microwave Theory and Techniques, vol. MTT-29, no. 12, pp. 1319-1327, Dec. 1981.

  60. W. C. Brown and J. F. Triner, "Experimental thin-film, etched-circuit rectenna," in 1982 IEEE MTT-S International Microwave Symposium Digest, 1982, pp. 185-187.

  61. E. M. Kerwin and G. D. Arndt, "Grating lobe characteristics and associated impacts upon the solar power satellite microwave system," Space Solar Power Review, vol. 3, pp. 255-280, 1982.

  62. E. M. Kerwin, D. J. Jezewski, and G. D. Arndt, "Antenna optimization of single beam microwave systems for the solar power satellite," Space Solar Power Review, vol. 3, pp. 281-299, 1982.

  63. R. M. Welch, J. M. Davis, and S. K. Cox, "Transmission of microwave beamed- power from an orbiting space station to the ground," Space Solar Power Review, vol. 3, no. 2, pp. 99-119, 1982.

  64. G. P. Boyakhchyan, V. A. Vanke and S. K. Lesota, "The choice of optimum density of dipoles in a rectenna," Radio Engineering and Electronic Physics (English translation of Radiotekhnika i Elektronika), vol. 28, no. 2, pp. 119-122, Feb. 1983.

  65. J. W. Freeman, "Energy from space; proceedings of the symposium on solar energy from space," Space Solar Power Review, vol. 4, no. 1-2, 1983.

  66. W. C. Brown and P. E. Glaser, "An electrical propulsion transportation system from low-earth orbit to geostationary orbit utilizing beamed microwave power," Space Solar Power Review, vol. 4, pp. 119-129, 1983.

  67. G. P. Boyakhchyan, V. A. Vanke, S. K. Lesota, F. N. Maslovskiy and V. A. Novitskiy, "Analytical calculation of a high-efficiency microwave rectifier employing a schottky-barrier diode," Telecommunications and Radio Engineering (English translation of Elaktrosvyaz and Radiotekhnika), vol. 37-38, no. 10, pp. 64- 66, Oct. 1983.

  68. G. P. Boyakhchyan, V. A. Vanke and S. K. Lesota, "Problems in the optimization of parameters of a schottky-barrier diode in a rectenna element," Radio Engineering and Electronic Physics, (English translation of Radiotekhnika i Elektronika), vol. 29, no. 2, pp. 131-135, Feb. 1984.

  69. S. Ashok, "Optimal barrier height for schottky diode rectifiers," Int. Journal Electronics, vol. 57, no. 3, pp. 429-431, 1984.

  70. V. A. Vanke, S. K. Lesota, V. L. Savvin, F. N. Maslovskiy, V. A. Novitskiy and I. G. Sambur, "Investigation of matching in rectenna systems," Radio Engineering and Electronic Physics, (English translation of Radiotekhnika i Elektronika), vol. 29, no. 4, pp. 139-144, April 1984.

  71. W. C. Brown, "Performance characteristics of the thin-film, etched-circuit rectenna," in 1984 IEEE MTT-S International Microwave Symposium Digest, 1984, pp. 365- 367.

  72. W. C. Brown, "The history of power transmission by radio waves," IEEE Transactions on Microwave Theory Tech., vol. MTT-32, no. 9, pp. 1230-1242, Sept. 1984.

  73. G. P. Boyakhchyan, V. A. Vanke and S. K. Lesota, "The effect of phase fluctuation in the incident beam on the characteristics of a rectenna system," Telecommunications and Radio Engineering (English translation of Elaktrosvyaz and Radiotekhnika), vol. 38-39, no. 10, pp. 120-122, Oct. 1984.

  74. W. C. Brown, "The history of the microwave magnetron and its derivatives," IEEE Transactions on Electron Devices, vol. ED-31, no. 11, pp. 1595-1605, Nov. 1984.

  75. T. Razban, M. Bouthinou and A. Coumes, "Microstrip circuit for converting microwave low power to dc energy," IEE Proceedings, vol. 132, Pt. H, no. 2, pp. 107-109, April 1985.

  76. W. C. Brown, "Current status of microwave power transmission technology for the solar power satellite," in Proceedings of the Seventh Princeton/AIAA/SSI Conference, 1985, pp. 37-41.

  77. W. C. Brown, "Earth to space dc to dc power transmission system utilizing a microwave beam as source of energy for electric propelled interorbital vehicles," in AIAA Electric Propulsion Conference, paper AIAA-85-2045, Oct. 1985.

  78. A. N. Yegerov, "The efficiency of energy transmission by an electromagnetic beam and its conversion in a rectenna," Soviet Journal of Communications Technology & Electronics (English translation of Radiotekhnika i Elektronika), no. 8, pp. 35-41, 1985.

  79. W. C. Brown, "A microwave powered, long duration, high altitude platform," in 1986 IEEE MTT-S International Microwave Symposium Digest, 1986, pp. 507-510.

  80. P. DuBose, "Solar power satellite built of lunar materials," special issue of Space Power, vol. 6, no. 1, pp. 1-98, 1986.

  81. W. C. Brown, "Update on the solar power satellite transmitter design," Space Power, vol. 6, no. 2, pp. 123-135, 1986.

  82. G. D. Arndt and E. M. Kerwin, "Applications of low-earth-orbit power transmission," Space Power, vol. 6, no. 2, pp. 137-155, 1986.

  83. P. E. Glaser, "Solar power satellite concept revisited," Space Power, vol. 6, no. 2, pp. 157-163, 1986.

  84. J. M. Osepchuk, "Environmental issues for the SPS," Space Power, vol. 6, no. 2, pp. 165-173, 1986.

  85. N. Kaya, H. Matsumoto, S. Miyatake, I. Kimuru, M. Nagatomo, and T. Obayashi, "Nonlinear interaction of strong microwave beam with the ionosphere MINIX rocket experiment," Space Power, vol. 6, no. 3, pp. 181-186, 1986.

  86. H. Matsumoto and T. Kimura, "Nonlinear excitation of electron cyclotron waves by a monochromatic strong microwave - computer simulation analysis of the MINIX results," Space Power, vol. 6, no. 3, pp. 187-191, 1986.

  87. K. Itoh, T. Ohgane, and Y. Ogawa, "Rectenna composed of a circular microstrip antenna," Space Power, vol. 6, no. 3, pp. 193-198, 1986.

  88. P. E. Glaser, "Environmental implications of the solar power satellite concept," Space Power, vol. 6, no. 4, pp. 279-285, 1986.

  89. M. Nagatomo, "10 MW satellite power system: a space station mission beyond 2000," Space Power, vol. 6, no. 4, pp. 299-304, 1986.

  90. W. C. Brown, "Status of the use of microwave power transmission technology in the solar power satellite," Space Power, vol. 6, no. 4, pp. 305-311, 1986.

  91. W. C. Brown, "Rectenna technology program: ultra light 2.45 GHz rectenna and 20 GHz rectenna," Raytheon Company, Waltham, MA, Tech. Report No. PT-6902, NASA Report No. CR-179558, NASA Contract No. NAS 3-22764, March 1987.

  92. W. C. Brown, "A microwave powered orbital industrial park system," in Proceedings of the 8th Biennial SSI/Princeton Conference on Space Manufacturing, pp. 242-251, May 1987.

  93. M. A. Gouker, D. P. Campbell and J. J. Gallagher, "Technology for satellite power conversion," Georgia Institute of Technology, Atlanta, GA, Georgia Tech Research Institute Project No. A-3244, NASA Report No. CR-181057, June 1987.

  94. W. C. Brown, "Leo to geo transportation system combining electric propulsion with beamed microwave power from earth," in American Astronautical Society Proceedings of 25th Goddard Memorial Symposium, 1987, Science and Technology Series, vol. 69, pp. 195-217.

  95. A. Fisher, "Secret of perpetual flight: beam-power plane," Popular Science, pp. 62- 66, Jan. 1988.

  96. M. I. Hoffert, G. Miller, B. Heilweil, W. Ziegler and M. Kadiramangalam, "Earth- to-satellite microwave beam: Innovative approach to space power," in Proceedings of SPIE, vol. 873, Microwave and Particle Beam Sources and Propagation, pp. 148- 169, Jan. 1988.

  97. W. C. Brown, "An all electronic transportation system from LEO to GEO and beyond," in Symposium on Lunar Bases & Space Activities in the 21st Century, paper LBS-88-122, April 1988.

  98. W. C. Brown, "All electronic propulsion - key to future spaceship design," in AIAA/ASME/SAE/ASEE 24th Joint Propulsion Conference, Paper AIAA 88-3170, July 1988.

  99. A. Alden and T. Ohno, "Dual polarization dipole array antenna," Patent Application, 1988.

  100. J. J. Schlesak, A. Alden and T. Ohno, "A microwave powered high altitude platform," in 1988 IEEE MTT-S International Microwave Symposium, 1988, pp. 283-286.

  101. P. E. Glaser, "The emerging opportunities for solar space power," Space Power, vol. 7, no. 1, pp. 5-11, 1988.

  102. G. E. Maryniak and B. Tillotson, "Design of solar power satellite for construction from lunar materials," Space Power, vol. 7, no. 1, pp. 27-36, 1988.

  103. W. C. Brown, "The SPS transmitter designed around the magnetron directional amplifier," Space Power, vol. 7, no. 1, pp. 37-49, 1988.

  104. S. Flandrois, C. Meschi, and P. Delhaes, "Prospects of intercalated graphite fibre use for electrical power transmission in solar power satellites," Space Power, vol. 7, no. 1, pp. 51-56, 1988.

  105. J. W. Freeman, "A polar orbit solar power satellite," Space Power, vol. 7, no. 1, pp. 69-73, 1988.

  106. K. Kuriki and H. Obara, "An energetics experiment on a space platform," Space Power, vol. 7, no. 1, pp. 75-89, 1988.

  107. A. Suzuki, T. Hirano, A. Ushirokawa, and M. Nagatomo, "SPS is the next goal of commercial solar cells," Space Power, vol. 7, no. 2, pp. 131-143, 1988.

  108. A. M. Angelini, "On the possibility of intercontinental power transmission via satellite," Space Power, vol. 7, no. 2, pp. 175-186, 1988.

  109. K. Itoh and Y. Ogawa, "Considerations on an inland rectenna," Space Power, vol. 7, no. 2, pp. 211-216, 1988.

  110. D. R. Sparks, "Fabrication of large photovoltaic arrays in space from lunar materials," Space Power, vol. 7, nos. 3/4, pp. 235-246, 1988.

  111. W. C. Brown, "Status of beamed power transmission technology and applications at 2.45 gigahertz," Space Power, vol. 8, no. 3, pp. 339-355, 1989.

  112. W. C. Brown, "Microwave power thin-film rectenna," Raytheon Company, Waltham, MA, Tech. Report PT-7174, NASA Contract NAS 3-25066, April 1989.

  113. W. C. Brown, "The sophisticated properties of the microwave oven magnetron," in 1989 IEEE MTT-S International Microwave Symposium, 1989, pp. 871-874.

  114. W. C. Brown, "Briefing on selected material on rectennas and microwave generators for beamed power transmission in space," Raytheon Company, Waltham, MA, Tech. Report PRP-5627, NASA Contract No. NAS 3-26066, Aug. 1989.

  115. R. J. De Young, Second Beamed Space-Power Workshop, NASA CP-3037, July, 1989.

  116. W. C. Brown, "The history and status of beamed microwave power transmission at 2.45 GHz," in Second Beamed Space-Power Workshop, NASA Conference Publication 3037, 1989.

  117. Free-Space Power Transmission, NASA CP-10016, Nov. 1989.

  118. W. C. Brown, "An alternative rectenna design for microwave powered interorbital transfer vehicles," Raytheon Company, Waltham, MA, Tech. Report PT-7240, NASA Contract No. NAS 3-25066, April 1990.

  119. W. C. Brown, "Transportronics - an electronic technology for transportation of both energy and material," in 17th International Symposium on Space Technology and Science, Tokyo, May 1990.

  120. D. R. Criswell and R. D. Waldron, "Lunar system to supply solar electric power to earth," in Proceedings of the 25th Intersociety Energy Conversion Engineering Conference, vol. 1, 1990, pp. 72-76.

  121. W. C. Brown, "An experimental low power density rectenna," in 1991 IEEE MTT-S International Microwave Symposium Digest, 1991, pp. 197-200.

  122. N. Kaya, H. Matsumoto and R. Akiba, "Rocket experiment METS - microwave energy transmission in space," in SPS 91 - Power From Space, 1991, pp. 336-342.

  123. D. R. Criswell and R. D. Waldron, "Lunar system to supply solar electric power to earth," in SPS 91 - Power From Space, 1991, pp. 186-193.

  124. W. C. Brown and M. Pollock, "Experimental radiation cooled magnetrons for space," in SPS 91 - Power From Space, 1991, pp. 348-355.

  125. W. Manheimer, S. Gold, and Y. Seo, "The magnicon as a highly efficient, high power, high frequency source for space power beaming," in SPS 91 - Power From Space, 1991, pp. 510-514.

  126. V. A. Vanke and V. L. Savvin, "Cyclotron-wave converter for SPS energy transmission system," in SPS 91 - Power From Space, 1991, pp. 515-520.

  127. M. Firmain, "Microwave sources for power transmission in space," in SPS 91 - Power From Space, 1991, pp. 521-527.

  128. V. A. Vanke, A. A. Zaporozhets and A. V. Rachnikov, "Antenna synthesis for the SPS microwave transmission system," in SPS 91 - Power From Space, 1991, pp. 528-534.

  129. K. Itoh and Y. Ogawa, "An inland rectenna using reflector and circular microstrip antennas," in SPS 91 - Power From Space, 1991, pp. 535-540.

  130. P. Koert, J. Cha and M. Machina, "35 and 94 GHz rectifying antenna systems," in SPS 91 - Power From Space, 1991, pp. 541-547.

  131. V. Rybakov and A. Smakhtin, "Frequency range analysis for power transmission by electromagnetic beam," in SPS 91 - Power From Space, 1991, pp. 548-550.

  132. M. L. Wald, "Solar power from space grows more feasible" New York Times, Wednesday, Dec. 25, 1991.

  133. J. C. McCleary, "Studies on beam propagation pertaining to beamed microwave power transmission and open resonator quasi-optics," M.S. Dissertation, Texas A&M Univ., College Station, Texas, Dec. 1991.

  134. W. C. Brown and E. E. Eves, "Beamed microwave power transmission and its application to space," IEEE Transactions on Microwave Theory and Techniques, vol. 40, no. 6, June 1992.

  135. P. E. Glaser, "An overview of the solar power satellite option," IEEE Transactions on Microwave Theory and Techniques, vol. 40, no. 6, pp. 1230-1238, June 1992.

  136. T. Yoo and K. Chang, "Theoretical and experimental development of 10 and 35 GHz rectennas," IEEE Transactions on Microwave Theory and Techniques, vol. 40, no. 6, pp. 1259-1266, June 1992.

  137. W. C. Brown, "A transportronic solution to the problem of interorbital transportation," NASA CR-191152, July 1992.

  138. B. W. Schupp and A. M. Brown, "Wireless power transmission: applications and technology status," in Proceedings of the 27th Intersociety Energy Conversion Engineering Conference, San Diego, vol. 2, Aug. 1992. pp. 2.271-2.278.

  139. J. A. Bamberger and E. P. Coomes, "Power beaming providing a space power infrastructure," in Proceedings of the 27th Intersociety Energy Conversion Engineering Conference, San Diego, vol. 2, Aug. 1992. pp. 2.279-2.284.

  140. M. Machina, P. Koert, and J. Cha, "Power beaming - energy transmission at 35 GHz and higher frequencies," in Proceedings of the 27th Intersociety Energy Conversion Engineering Conference, San Diego, vol. 2, Aug. 1992. pp. 2.285-2.288.

  141. S. P. Gill, P. Frye, and J. Rosemary, "Laser power beaming systems for lunar surface applications," in Proceedings of the 27th Intersociety Energy Conversion Engineering Conference, San Diego, vol. 2, Aug. 1992. pp. 2.289-2.292.

  142. J. A. Bamberger and E. P. Coomes, "Power beaming providing a space power infrastructure," in Proceedings of the 27th Intersociety Energy Conversion Engineering Conference, San Diego, vol. 2, Aug. 1992. pp. 2.279-2.284.

  143. Proceedings of the 1st Annual Wireless Power Transmission Conference (WPT 93), San Antonio, TX, Feb. 1993.

  144. D. R. Criswell and R. D. Waldron, "International lunar base and lunar-based power system to supply earth with electric power," Acta Astronautica, vol. 29, no. 6, pp. 469-480, 1993.

  145. P. E. Glaser, F. P. Davidson and K. I. Csigi, Solar Power Satellites the emerging energy option. New York: John Wiley & Sons, 1994.

  146. R. Nansen, Sun Power The Global Solution for the Coming Energy Crisis. Ocean Shores, WA: Ocean Press, 1995.

  147. R. B. Erb, N. Kaya, G. Maryniak, R. Leonard, M. B. Duke, F. Little, A. D. Patton, R. Nanson, J. Spies, and W. Sadeh, "International cooperation for the acquisition of space-based energy," in 46th International Astronautical Congress, Oct. 1995, pp. 1-9.

  148. W. C. Brown, "The history of wireless power transmission," Solar Energy, vol. 56, no. 1, pp. 3-21, Jan. 1996.

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