The U.S. Army recently conducted a successful evaluation of a new directed-energy capability, moving the service one step closer to fielding a platoon of four laser-equipped Stryker combat vehicle prototypes next fiscal year. The Directed Energy Maneuver-Short Range Air Defense system, or DE M-SHORAD, is a 50kW-class laser designed to protect divisions and brigade combat teams against unmanned aircraft systems, rotary and fixed-wing threats, rockets, artillery, and mortars. The unique design of the DE M-SHORAD leverages the Stryker’s gas-powered engine to energize its batteries, cooling system, and laser.
“Our goal is to deliver prototypes that Soldiers can use as the mission requires and that the Army can leverage as a baseline for a program of record. A Soldier-centered design is a key part to reduce risk and to ensure an operationally effective weapon system. A strong partnership between the Army Rapid Capabilities and Critical Technologies Office and science and technology industry leaders led to the development and implementation of the first prototype in 24 months,” said Marcia Holmes, the deputy director of hypersonics, directed energy, space and rapid acquisition.
“The addition of the DE M-SHORAD and other directed-energy capabilities like the Indirect Fire Protection Capability-High Energy Laser, or IFPC-HEL, and IFPC-High Power Microwave are all designed to complement the Army’s kinetic air defense capabilities. There are places where directed energy can provide a significant advantage. All the bullets are built into the system, so the logistics associated with moving a platform and supplying it requires just gas and parts,”said Craig Robin, deputy director of the Rapid Capabilities and Critical Technologies Office’s directed energy project office.
The U.S. Army plans to demonstrate the DE M-SHORAD capabilities during Project Convergence 21, where it will participate in a joint and coalition exercise later this year. In July, the prototype proved its abilities during a combat shoot-off at Fort Sill, Oklahoma. During the event, Soldiers faced several realistic scenarios intended to refine future DE M-SHORAD characteristics, as program leads collected extensive data and user feedback to refine the system. In addition to Project Convergence 21, the DE M-SHORAD development team will make minor adjustments to improve the device’s performance in the coming months, followed by several internal system verifications