Airborne Laser Team Completes Successful Tests of High-Power Laser, Prepares to Deliver First Flight Laser Module
Record power-output tests mark a major milestone. Five remaining flight laser modules near completion.
REDONDO BEACH, CALIF. March 29, 2002
Northrop Grumman, a member of the team of contractors developing the Air Force's Airborne Laser (ABL) system - Boeing (NYSE: BA), Northrop Grumman (NYSE: Northrop Grumman) and Lockheed Martin (NYSE: LMT) - has successfully completed test-firings of the first flight laser module (LM-1). The firings produced record power levels of 118 percent of the laser's designed power output and exceeded the power requirements of the ABL mission.
The ABL system will use six such laser modules to create a megawatt-class chemical laser flying in a specially built Boeing 747-400F to shoot down missiles in the boost phase. The high-power laser is coupled with a revolutionary optical system capable of focusing a basketball-sized spot of heat that can burn through a missile skin from hundreds of miles away. The laser and optical systems are controlled by a sophisticated computer system that can simultaneously track and prioritize potential targets.
²We are extremely happy with Northrop Grumman's work on the laser and with the potential this holds for the nation's missile defense program," said Col. Ellen Pawlikowski, director of the Airborne Laser System Program Office at Kirtland AFB, N.M.
The series of laser performance tests, culminating more than a year of integration and testing by Northrop Grumman, was completed in January at the company's Capistrano Test Site in southern California. Northrop Grumman is disassembling LM-1 in preparation for delivery to Edwards Air Force Base for integration into ABL's flight system. The company has also begun delivery of the components required for the integration of the remaining five modules needed for the first ABL-equipped 747.
"I'm very proud of the technical innovation and collaboration within our team that helped us complete this test program," said Steve Hixson, Northrop Grumman's ABL program manager. "Not only did the laser exceed performance goals, but our team overcame significant engineering challenges, including demonstration of a new two-stage turbo pump capable of the chemical flow rates required for full-power lasing. The successful tests of LM-1 mark a major step forward in overcoming the technical risk in developing the world's first airborne directed energy weapon system."
Development of the ABL demonstrator now shifts to the ABL System Integration Laboratory, a new facility at Edwards Air Force Base, Calif. There the ABL team will assemble the five additional laser modules, integrate them with LM-1, then perform a ground-based demonstration of the integrated high-energy laser that will fly on the first ABL system.
The LM-1 test program was conducted as part of Team ABL's Program Development and Risk Reduction contract with the Air Force Space & Missile Systems Center. The Airborne Laser program is managed by the Air Force ABL system program office, Kirtland Air Force Base, N.M., which reports to Aeronautical Systems Center, Wright-Patterson AFB, Ohio. The Department of Defense Missile Defense Agency (MDA) has management authority and funding responsibility for the ABL program.
Boeing is leading the team selected by the U.S. Air Force to develop and demonstrate the ABL. Team ABL includes Boeing, Lockheed Martin and Northrop Grumman, working closely with the Air Force and MDA. Boeing is responsible for developing the ABL surveillance BMC4I, integrating the weapon system and supplying the modified 747-400 Freighter aircraft. Northrop Grumman is providing the complete chemical oxygen-iodine laser system. Lockheed Martin is developing the beam control/fire control system, which will acquire the target, then accurately point and fire the laser.
For the latest news about the ABL program, visit the website at Airborne Laser web site.