The United States has reported a successful
ground-based test of an airborne laser meant to intercept ballistic
missiles.
The Missile Defense Agency said the megawatt-class laser underwent a successful test on Nov. 10. The Pentagon agency
said the laser was operated in a ground-based demonstration at Edwards Air
Force Base, Calif.
Officials said this marked the first time that a directed
energy weapon meant for use in a Boeing 747 aircraft has been
demonstrated.
The test, which lasted a fraction of a second, involved the simultaneous
firing of all six laser modules and associated optics that comprise the
Chemical Oxygen Iodine Laser. Officials said the modules,built by
Northrop Grumman, performed as
expected.
Officials said the test was conducted in the framework of the Airborne
Laser project. "It was the first time that multiple modules of the powerful laser had
ever been fired while linked together as a single unit," the Missile Defense
Agency said in a statement on Nov. 10. "In the test, the laser light
produced by the six modules was fired into a wall of metal called a
calorimeter or beam dump. The temperature rise of the metal was used to
validate that laser power was generated."
The ABL program has undergone a two-year delay in wake of the failure to
develop a laser weapon that could be fitted into the nose of a Boeing
747-400F aircraft. The Pentagon has acknowledged that the laser system
developed in 2002 was too heavy for flight.
The ABL, a program expected to reach $4 billion through 2008, has been
designed to autonomously detect, track and destroy enemy ballistic missiles.
The high-power laser was meant to focus a basketball-sized spot of heat that
can destroy a missile in the boost-phase of launch at a range of hundreds of
kilometers.
Officials said the ABL was meant to intercept ballistic missiles from
such countries as Iran and North Korea. Israel has expressed interest in the
ABL and was said to be seeking to cooperate with the United States in a
scaled-down version of the program.
The Nov. 10 test was said to have verified the integration, operation
and control of six laser modules in flight configuration. Officials said the
laser would be installed in the 747, integrated with the beam control/fire
control system and eventually tested in flight.
Officials said the ABL prototype, termed YAL-1A, has resumed
preparations for its first flight test. In December 2002, the aircraft was
removed from service for modifications to the airframe to ensure the
installation of the laser beam control system.
In early 2005, officials said, the ABL Track Illuminator Laser and
Beacon Illuminator Laser would be installed. This would be followed by a
flight of the YAL-1A that would include the test of the full beam control
system.
At a later stage, the Chemical Oxygen Iodine Laser would be installed on
the Boeing 747, followed by additional ground and flight tests. Officials
said no date has been set for the first ABL attempt to intercept a ballistic
missile.