In the trenchesKey milestone for compact high-power laser

Published 5 July 2011

Enemy surface-to-air threats to U.S. manned and unmanned aircraft have become increasingly sophisticated, creating a need for rapid and effective response; one solution for countering these threats is high-powered lasers, which harness the speed and power of light to counter multiple — and rapidly approaching — threats; to be useful in combat, however, these lasers need to be lighter and require less space than current state-of-the-art for use on many of today’s air assets; DARPA is working to develop this compact laser

Working toward a high-energy, compact laser system // Source: luxetvitan.com

Enemy surface-to-air threats to U.S. manned and unmanned aircraft have become increasingly sophisticated, creating a need for rapid and effective response. A potential solution for countering these threats is high-powered lasers, which harness the speed and power of light to counter multiple — and rapidly approaching — threats. To be useful in combat, however,  these lasers need to be lighter and require less space than current state-of-the-art for use on many of today’s air assets. The Pentagon’s research arm, DARPA, says that the goal of its High-Energy Liquid Laser Area Defense System (HELLADS) program is to develop a 150 kilowatt (kW) laser weapon system that is ten times smaller and lighter than current lasers of similar power, enabling integration onto tactical aircraft to defend against and defeat ground threats.

DARPA recently completed laboratory testing of a fundamental building block for HELLADS, a single laser module that successfully demonstrated the ability to achieve high power and beam quality from a significantly lighter and smaller laser.

“Successful testing of the single laser module is a major accomplishment,” said Richard Bagnell, DARPA’s HELLADS program manager. “Advances in diodes, cooling, lightweight electronics, pumps, optics, and metal structures have made shrinking the size and weight possible without losing laser effectiveness.”

The program now enters the final development phase in which a second laser module will be built and combined with the first module to generate 150 kW of power. The goal is to have the 150 kW laser completed by the end of 2012.

Following the final development phase, plans call for the laser to be transported to White Sands Missile Range in the early-2013 timeframe for ground testing against rockets, mortars, surface-to-air missiles, and to conduct simulated air-to-ground offensive missions.

DARPA is also in discussion with the Air Force about transitioning the technology to conduct an airborne demonstration following the ground testing phase.