Air Force Invests $26.3M in a High-Energy Laser for Fighter Jets

Lockheed Martin is helping the Air Force Research Lab develop and mature high energy laser weapon systems, including the high energy laser pictured in this rendering. (Image courtesy of Air Force Research Lab)
Lockheed Martin is helping the Air Force Research Lab develop and mature high energy laser weapon systems, including the high energy laser pictured in this rendering. (Image courtesy of Air Force Research Lab)

The Air Force Research Lab (AFRL) has awarded Lockheed Martin $26.3 million for the design, development and production of a high power fiber laser on to a tactical fighter jet by 2021.

The contract is part of AFRL’s Self-protect High Energy Laser Demonstrator (SHiELD) program, and is a major step forward in the maturation of protective airborne laser systems.

“Lockheed Martin continues to rapidly advance laser weapon systems and the technologies that make them possible,” said Dr. Rob Afzal, senior fellow of laser weapon systems at Lockheed Martin.

“We have demonstrated our ability to use directed energy to counter threats from the ground, and look forward to future tests from the air as part of the SHiELD system.”

The SHiELD program includes three subsystems:

  • SHiELD Turret Research in Aero Effects (STRAFE), the beam control system, which will direct the laser onto the target
  • Laser Pod Research & Development (LPRD), the pod mounted on the tactical fighter jet, which will power and cool the laser
  • Laser Advancements for Next-generation Compact Environments (LANCE), the high energy laser itself, which can be trained on adversary targets to disable them

(Learn More. Technological advancements over the past 40 years made laser weapon system developments possible in efficiently harnessing and directing the power of a laser beam and fiber laser devices using spectral beam combining. Lockheed Martin’s laser weapon systems have the dimensions and proficiency to allow easier incorporation into the battlefield—ensuring successful operation on military platforms on the move now and in the near future. Courtesy of Lockheed Martin and YouTube)

LANCE is designed to operate in a compact environment, and as such, the Lockheed Martin team focused on developing a compact, high efficiency laser within challenging size, weight and power constraints.

Dr. Rob Afzal, senior fellow of laser weapon systems at Lockheed Martin
Dr. Rob Afzal, senior fellow of laser weapon systems at Lockheed Martin

“Earlier this year, we delivered a 60 kW-class laser to be installed on a U.S. Army ground vehicle,” added Afzal.

It’s a completely new and different challenge to get a laser system into a smaller, airborne test platform. It’s exciting to see this technology mature enough to embed in an aircraft.”

“The development of high power laser systems like SHiELD show laser weapon system technologies are becoming real.”

“The technologies are ready to be produced, tested and deployed on aircraft, ground vehicles and ships.”

Lockheed Martin has more than 40 years of experience developing laser weapon systems.

Lockheed Martin logoThe LANCE contract leverages technology building blocks from internal research and development projects, including the ATHENA system and ALADIN laser, as well as contract experience gained from programs such as the U.S. Army’s Robust Electric Laser Initiative (RELI) program.