Theater Missile Defense: Significant Technical Challenges Face the Airborne Laser Program

Abstract

Operation Desert Storm demonstrated that the U.S. military and other allied forces have limited capability against theater ballistic missiles. In fact, U.S. defensive capability is limited to weapons that defend against missiles nearing the end of their flight, such as the Patriot. No capability currently exists to destroy missiles in the boost phase. Consequently, DOD is expending considerable resources to develop the ABL's capability to intercept missiles in their boost phase. In simple terms, the ABL program will involve placing various components, including a powerful multimegawatt laser, a beam control system, and related equipment, in a Boeing 747-400 aircraft and ensuring that all the components work together to detect and destroy enemy missiles in their boost phase. In November 1996, the Air Force awarded a 77-month program definition and risk reduction contract to the team of Boeing, TRW, and Lockheed Martin. Under the contract, Boeing is to produce and modify the 747-400 aircraft and integrate the laser and the beam control system with the aircraft, TRW will develop the multimegawatt Chemical Oxygen Iodine Laser (COIL) and ground support systems, and Lockheed Martin will develop the beam control system. The various program components are in the early phases of design and testing. One prototype ABL will be produced and used in 2002 to shoot down a missile in its boost phase. If this demonstration is successful, the program will move into the engineering and manufacturing development phase in 2003. Production is scheduled to begin about 2005. Initial operational capability of three ABLs is scheduled for 2006; full operational capability of seven ABLS is scheduled for 2008.

Document Details

Document Type

Technical Report

Publication Date

Oct 23, 1997

Accession Number

ADA331189

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