Space Solar Power Review Vol 4 Num 4 1983

Cover	1
Table of Contents	88
Editors List	2
Editorial by John W Freeman	3
Soft And Hard Technology In Resource Development Coexistance Or Divergenceby Cheston and Glaser	5
Forward	5
References	8
Tough Technology by Arthur Kantrowitz	9
Introduction	9
The Frankness Rule	9
Communication In The Presence Of Controversy	10
Experience With The Science Court	11
Difficulties In Applying The Science Court To Real Controversies	14
Conclusion	14
References	15
Value Choices And Technicalogical Options by Victor Ferkiss	17
Value Choices: Freedom And Equality	19
Energy Futures: Soft Vs Hard	21
Need for Synthesis Of Conflicting Paths	25
References	26
Space Industrialization And The Social Agenda by Jack Salmon	29
Abstract	29
Introduction	29
Ideology and Policy	30
Private Enterprise: The Ideology	31
Collectivism: The Ideology	31
The Record vs. Ideology	32
Mixed Models: Is There Any Other Choice?	34
The Focus On Allocation Of Benefits	35
The Moon Treaty: Collectivist Free Enterprise?	36
References And Notes	38
The Changing Energy Mix In The United States 1980 to 2000: Bridging The Gap by Arnold Baker	41
Introduction	41
Background	41
Prospctive United States Energy Use Patterns	42
Conclusion	46
References	46
The Potential Of SPS For Developing Countries by Jasentuliyana and Ludwig	47
References	56
Bibliography	56
The Coexistence Of Soft And Hard TEchnologies by Peter Glaser	57
Appropriateness Of Hard And SOft Technology	57
Changing Perceptions Of Energy Problem	57
Solar Energy Technology Conributions	59
Appropriate Technology Applications	59
Towards A Global Civilization	60
Early History Of The British East Indies COmpany A Pareallel To The Commercialization Of Space by Ramon Lopez	63
References And Notes	65
SPS Generic Research And Abstracts	67
Photovoltaic industry and possible seeds for SPS Solar Cells	67
History and future views on solar cell arrays of Japanese scientific satellites	67
Development of silicon high efficiency solar cell for space application	67
Radiation degradation studies on GaAlAs-GaAs solar cells	68
GaAs solar cells for space application	68
Development of high intensity solar simulator	68
Space solar electric power generation system with Stirling engine	68
Solar array for SPS	69
Structural design of the 2-D deployable solar cell array	69
Microscopic studies of radiation degradation of GaAlAs/GaAs solar cells	69
Japan Space Energetics and Environment Laboratory	69
Development of space solar cells and their applications to large power solar panels	70
Solar array for JSEEL	70
The present condition of manufacturing technology of GaAs single crystal and the prospects for the availability of its raw materials	70
Deployable solar array for bus platform	70
Power requirements for manned space stations	71
Applications of materials surface modification to prime power systems	71
Interaction between the SPS Solar Power Satellite solar array and the magnetoshperic plasma	71
High power requirements	72
Power from radiant-energy sources: an overview	72
High efficiency Tandem or Cascade photovoltaic solar cells for space application	72
Thermophotovoltaic power sources for space applicat	73
Solar energy conversion for space power systems	73
Solar Electric Power Generation	74
Solar Electric Power Generation	74
Research and Technology, Lewis Research Center (Annual Report 1982)	74
Results of the 1981 NASA/JPL Balloon Flight Solar Cell Calibration Program	74
Space Applicable DOE Photovoltaic Technology: An Update	74
Study of Multi-Megawatt Technology Needs for Photovoltaic Space Power Systems	74
List of Contents and Author Index Volume 4, 1983	75
Editorial: Software Survey Section by John W Freman	81
Announcement and Call for Papers BEIJING INTERNATONAL SYMPOSIUM ON HYDROGEN SYSTEMS	85

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