National Research Council; Division on Engineering and Physical Sciences; Board on Physics and Astronomy; Committee on a Scienti National Academies Press (2009) Pehmeäkantinen kirja
Great Britain: Scientific Advisory Committee on Nutrition; The Royal College of Paediatrics and Child Health; Alan A. Jackman TSO (2008) Pehmeäkantinen kirja
This book presents a scientific assessment of free-electron-laser technology for naval applications. The charge from the Office of Naval Research was to assess whether the desired performance capabilities are achievable or whether fundamental limitations will prevent them from being realized.
The present study identifies the highest-priority scientific and technical issues that must be resolved along the development path to achieve a megawatt-class free-electron laser. In accordance with the charge, the committee considered (and briefly describes) trade-offs between free-electron lasers and other types of lasers and weapon systems to show the advantages free-electron lasers offer over other types of systems for naval applications as well as their drawbacks.
The primary advantages of free-electron lasers are associated with their energy delivery at the speed of light, selectable wavelength, and all-electric nature, while the trade-offs for free-electron lasers are their size, complexity, and relative robustness. Also, Despite the significant technical progress made in the development of high-average-power free-electron lasers, difficult technical challenges remain to be addressed in order to advance from present capability to megawatt-class power levels.
Table of Contents
Front Matter Executive Summary 1 Introduction and Principal Findings 2 State of the Art 3 Technical Assessment: Scalability to One-Megawatt Power Levels Appendixes Appendix A: Statement of Task Appendix B: Committee Meeting Agendas Appendix C: Biographies of Committee Members and Staff Appendix D: Acronyms and Glossary
