UAV laser weapons considered to destroy enemy ballistic missiles in boost phase
ALBUQUERQUE, N.M. — Power electronics experts at three U.S. defense companies are pursuing a project to develop enabling technologies for laser weapons on future unmanned aerial vehicles (UAVs) to destroy enemy ballistic missiles in boost phase.
Officials of the U.S. Missile Defense Agency (MDA) in Albuquerque, N.M., has announced contract modifications to General Atomics Electromagnetic Systems in San Diego; Lockheed Martin Space Systems in Sunnyvale, Calif.; and the Boeing Defense, Space & Security segment in Huntsville, Ala., to push forward with the Low Power Laser Demonstrator (LPLD) project.
LPLD seeks to develop enabling technologies in preparation for building a future high-energy laser weapon for a high-altitude UAV able to destroy enemy ballistic missiles in boost phase.
The U.S. Missile Defense Agency is working with three defense companies to develop enabling technologies for laser weapons on future unmanned aerial vehicles (UAVs).
General Atomics Electromagnetic Systems won a $23.4 million contract extension; Lockheed Martin won a $25.5 million extension; and Boeing won a $20.5 million extension for follow-on work to the first phase of the LPLD project.
In late 2017 the three companies won LPLD phase-one contracts to build low-power laser prototypes to help establish beam stability at long range and the ability to dwell on one spot of a ballistic missile-sized target.
In LPLD phase one, the companies addressed laser power and aperture size by integrating and testing a low-power laser on a UAV.
Now General Atomics, Lockheed Martin, and Boeing move to the next step of the LPLD project, which is to complete their tailored concept design reviews for the LPLD post-preliminary design review risk-reduction effort.
General Atomics Electromagnetic Systems specializes in high-voltage capacitors for direct current, pulsed power, high-frequency alternating current, and pulsed power systems powerful enough to support future railgun applications and all-electric aircraft carrier catapults.
The company also specializes in power-management and energy-storage technologies. Another segment of the company, General Atomics Aeronautical Systems in Poway, Calif., also designs UAVs such as the Predator, Reaper, Gray Eagle, and Avenger UAVs.
Boeing’s expertise in high-energy weapons include the company’s truck-mounted High Energy Laser Mobile Demonstrator (HEL MD) for use against air and ground targets. The company also developed the YAL-1 Airborne Laser Testbed, which was a megawatt-class chemical oxygen iodine laser (COIL) mounted inside a modified Boeing 747-400F jetliner.
The ability to destroy enemy ballistic missiles in boost phase is particularly important because with one shot it could destroy several independently targeted missile warheads, as well as decoys designed to foil missile defenses.
Lockheed Martin is involved in the U.S. Air Force Laser Advancements for Next-generation Compact Environments (LANCE) project to develop a compact, ruggedized, high-power laser to defend tactical aircraft flying at or above the speed of sound from enemy aircraft and missiles. LANCE is part of the Air Force’s Self-protect High Energy Laser Demonstrator (SHiELD) demonstration to develop and assess a high-energy laser (HEL) for use against enemy aircraft, missiles, and other airborne threats.
General Atomics, Lockheed Martin, and Boeing may move on to a technology demonstration in the LPLD program’s second phase.
In the yearlong first phase companies performed system design, and in the second phase will build, integrate, and test a functional low-power laser for beam control and stability. MDA officials anticipate a low-power flight test by 2020 and beam stability testing by 2021.
Lessons learned from the LPLD project are to help government and industry experts develop solid-state lasers strong enough to destroy enemy ballistic missiles in boost phase from UAVs operating at high altitudes.
The LPLD project’s low-power laser demonstrator should help military and defense industry experts understand how to use high-altitude UAVs to destroy missiles in boost phase with lasers, and ways to aim the laser, keep it steady on target, and focus the laser sufficiently to destroy the missile at it leaves the launch pad.
On this contract General Atomics will do the work in San Diego; Lockheed Martin will do its work in Sunnyvale, Calif., while Boeing will do its work in Huntsville, Ala.; Huntington Beach, Calif.; and Albuquerque, N.M. The three companies should be finished by July 2019.
For more information contact General Atomics Electromagnetic Systems online at www.ga.com/ems, Lockheed Martin Space Systems at www.lockheedmartin.com, or Boeing Defense, Space & Security at www.boeing.com/defense.
John Keller | Editor
John Keller is editor-in-chief of Military & Aerospace Electronics magazine, which provides extensive coverage and analysis of enabling electronic and optoelectronic technologies in military, space, and commercial aviation applications. A member of the Military & Aerospace Electronics staff since the magazine's founding in 1989, Mr. Keller took over as chief editor in 1995.