Review of Directed Energy Technology for Countering Rockets, Artillery, and Mortars (RAM)
Abbreviated Version
National Research Council author Division on Engineering and Physical Sciences author Board on Army Science and Technology author Committee on Directed Energy Technology for Countering Indirect Weapons author
Format:Paperback
Publisher:National Academies Press
Published:22nd Oct '08
Currently unavailable, and unfortunately no date known when it will be back
The United States Army is looking for ways to defend against missile and mortar attacks. In this book, the National Research Council assesses a plan to create a 100 kW mobile, solid-state, laser weapon that could defend an area several kilometers in diameter.
The NRC provides several recommendations:
- A 100 kW Laser is of limited value, so the program's goal should be a 400 kW weapon.
- The Army should proceed with the program in stages, focusing first on a rugged transportable platform for the weapon using existing 25 kW laser technology, then directing resources toward 100kW and 400 kW weapons.
- The Army should perform a detailed, quantitative study of the effectiveness of a high energy, solid-state laser weapon against future threats.
- The Army should continue to participate in U.S.-based and international research on high-energy lasers and related equipment. The committee found substantial benefits for the Army's solid-state laser program from other programs outside the Army.
- The Army should conduct risk-assessments that investigate the effects that a high energy laser may have on other airborne platforms in the vicinity of the target.
- The Army should study eye safety for both the operators of the laser and for civilians. The results of these studies should be integrated into the development of the weapon.
- Front Matter
- Summary
- Appendixes
- Appendix A: Biographical Sketches of Committee Members
- Appendix B: Committee Meetings
- Appendix C: Abbreviations and Acronyms
- Appendix D: Definitions of Technology Readiness Levels <
ISBN: 9780309111713
Dimensions: unknown
Weight: unknown
42 pages