Flying laser zaps missile in first for US

WASHINGTON, (Reuters) – A high-powered laser aboard  a modified Boeing Co 747 jumbo jet shot down an in-flight  ballistic missile for the first time, highlighting a new class  of ray guns best known from science fiction.

The flying laser’s long-awaited test on Thursday showcased  a potential to zap multiple targets at the speed of light and  at a range of hundreds of kilometers, the Pentagon’s Missile  Defense Agency said in a statement.

“The Missile Defense Agency demonstrated the potential use  of directed energy to defend against ballistic missiles when  the Airborne Laser Testbed (ALTB) successfully destroyed a  boosting ballistic missile,” the agency said.

“The revolutionary use of directed energy is very  attractive for missile defense,” the statement added.

It cited among other things a low cost per intercept  compared with other technologies used to defeat missiles that  could be tipped with chemical, biological or nuclear warheads.

Directed energy weapons use highly focused rays to attack a  target rather than chemical-powered arms.

Those in control can  tweak the strength involved, unlike a bullet or a bomb,  allowing for less-than-lethal uses.

Lasers are well known from science fiction as a type of ray  gun.

In the real world, they are used for sighting, ranging and  targeting for guns.

The experiment marked both the first time a laser weapon  has destroyed a ballistic missile and the first time any system  has accomplished it in the missile’s boost phase of flight.

A boosting missile is easiest to track because its exhaust  is bright and hot, but the window lasts only from one to five  minutes, meaning the interceptor must be in close proximity.

The modified 747-400F jumbo jet took off from Edwards Air  Force Base in California in an experiment that was unannounced  before the outcome was made known early yesterday.

A short-range ballistic missile was launched from an at-sea  mobile launch platform off Point Mugu on the central California  coast, the agency said.

Within seconds, the Airborne Laser used on board sensors to  detect the missile, then a low-energy laser to track it.

After firing another laser to measure and compensate for  atmospheric disturbance, on went its megawatt-class high-energy  laser, “heating the boosting ballistic missile to critical  structural failure,” the agency said.