> our title:

US to Add Laser-Armed Drones to Missile Defense Network

> original title:

U.S. Rushes to Add Laser-Armed Drones to Missile Defense Network (excerpt)

(Source: Las Vegas Review-Journal; published Feb 20, 2017)

By Keith Rogers

As North Korea marches toward its goal of threatening the United States with nuclear weapons, the Pentagon is racing to add a new component to its missile defense system: a revolutionary drone laser weapon capable of zapping rockets almost as soon as they are launched.

The U.S. Missile Defense Agency says it has conducted tests of a “directed-energy airborne laser” fired from a military drone. The weapon, which would be carried by remote-control aircraft loitering high over suspected enemy ballistic missile launch sites, would add an early interception ability to the current system, which relies on “metal-to-metal” missile interceptors guided by an elaborate system of radar and satellites.

“Our vision is to shift the calculus of our potential adversaries by introducing directed energy into the ballistic missile defense architecture,” agency spokesman Christopher Johnson wrote in an email response to a Las Vegas Review-Journal inquiry. “This could revolutionize missile defense, dramatically reducing the role of kinetic interceptors.”

Two remotely piloted Reaper drones — like those that routinely fly at Creech Air Force Base, 45 miles northwest of Las Vegas — are being used in a $230 million, five-year Low Power Demonstration program at White Sands Missile Range in New Mexico, according to Johnson.

Johnson said five leading defense contractors — Boeing, General Atomics, Lockheed Martin, Northrop Grumman and Raytheon — are studying the technology, and the agency expects to award contracts this year to design a multi-kilowatt-class laser weapon for missile defense.

“We will select the best designs, develop a demonstrator system for flight test in 2020, and piggyback on ballistic missile defense tests in 2021,” Johnson said. (end of excerpt)

Click here for the Las Vegas Review-Journal website.