10-2 Estimated Noise Power Density at Earth 10-5 10-3 MPTS Ground Power Densities for Harmonics 10-11 11-1 Technology and Hardware Development Risk Rating Definition 11-1 11-2 Satellite Power System Technology Risk Assessment 11-2 12-1 MPTS Geometry 12-2 12-2 MPTS Functional Diagram 12-4 12-3 Beam Efficiencies (n^) for Truncated Gaussian Tapers 12-7 12-4 MPTS Efficiency (n) Vs Frequency for Parametric Studies 12-10 12-5 Parametric Study Specific Costs and Weights 12-11 12-6 SPS Capital Cost Vs Frequency - 300 $/kg 12-14 12-7 SPS Captial Cost Vs Frequency - 100 $/kg 12-14 12-8 Transmitting Antenna Diameter for Lowest Cost SPS 12-15 12-9 Receiving Antenna Minor Axis for Lowest Cost SPS 12-16 12-10 Transmitting Antenna Diameter for Lowest Cost SPS (300 $/kg, 500 $/kW) 12-17 12-11 Receiving Antenna Minor for Lowest Cost SPS (300 $/kg, 500 $/kW) 12-18 12-12 SPS Capital Cost for Klystron Configurations 12-20 12-13 Peak Ground Power Density Vs Frequency 12-21 12-14 Receiving Antenna Size Vs Beam Efficiency and Taper 12-23 12-15 Transmitting Antenna Size Vs Beam Efficiency and Taper 12-24 12-16 Peak Ground Power Density Vs Beam Efficiency and Taper 12-25 12-17 Cost Matrix - 5 GW - Case LMM 12-27 12-18 Cost Matrix - 5 GW - Case MMM 12-28 12-19 Cost Matrix - 5 GW - Case LLH 12-29 12-20 Cost Matrix - 5 GW - Case HHL 12-30 12-21 Cost Matrix - 10 GW - Case LMM 12-31 12-22 Cost Matrix - 10 GW - Case MMM 12-32 12-23 Cost Matrix - 10 GW - Case LLH 12-33 12-24 Cost Matrix - 10 GW - Case HHL 12-34 12-25 Amplitron-Aluminum MPTS Comparison 12-35 12-26 Comparison of 5 GW Systems 12-35
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