The Missile Defense Agency awarded Lockheed Martin a nine-month, $25.5 million contract extension to continue development of its Low Power Laser Demonstrator (LPLD) missile interceptor concept. This program, awarded August 31, builds on a 2017 contract to develop an initial LPLD concept.
Lockheed Martin’s LPLD concept consists of a fiber laser system on a high-performing, high-altitude airborne platform. LPLD is designed to engage missiles during their boost phase – the short window after launch – which is the ideal time to destroy the threat, before it can deploy multiple warheads and decoys.
Over the course of this contract, Lockheed Martin will mature its LPLD concept to a tailored critical design review phase, which will bring the design to a level that can support full-scale fabrication.
«We have made great progress on our LPLD design, and in this stage, we are particularly focused on maturing our technology for beam control – the ability to keep the laser beam stable and focused at operationally relevant ranges», said Sarah Reeves, vice president for Missile Defense Programs at Lockheed Martin Space. «LPLD is one of many breakthrough capabilities the Missile Defense Agency is pursuing to stay ahead of rapidly-evolving threats, and we’re committed to bringing together Lockheed Martin’s full expertise in directed energy for this important program».
Lockheed Martin expands on advanced technology through its laser device, beam control capabilities, and platform integration – ranging from internal research and development investments in systems like the Advanced Test High Energy Asset (ATHENA) to programs such as the Laser Advancements for Next-generation Compact Environments (LANCE) for the Air Force Research Laboratory (AFRL).
Continued LPLD development will take place at Lockheed Martin’s Sunnyvale, California campus through July 2019.
As a proven world leader in systems integration and development of air and missile defense systems and technologies, Lockheed Martin delivers high-quality missile defense solutions that protect citizens, critical assets and deployed forces from current and future threats. The company’s experience spans directed energy systems development, missile design and production, hit-to-kill capabilities, infrared seekers, command and control/battle management, and communications, precision pointing and tracking optics, radar and signal processing, as well as threat-representative targets for missile defense tests.