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‘Bullet made out of light’: US Army to field first Stryker-mounted combat laser in next 45 days

F-22Raptor

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Stryker Drivers Training

U.S. Army Soldiers with Alpha Battery, 5th Battalion, 4th Air Defense Artillery, 10th Army Air & Missile Defense Command, conduct drivers Training on the M-SHORAD stryker, May 25, 2021, at the Oberdachstetten Range Complex, Germany. (U.S. Army photo by Georgios Moumoulidis)
SMD 2022 — The US Army’s rapid capabilities office plans to deliver its first combat laser to Stryker units in next few weeks and is moving ahead with a project to mount a laser weapon on another vehicle, according to the office’s director.

Speaking at the Space and Missile Defense Symposium in Huntsville, Ala., Lt. Gen. Neil Thurgood, head of the Rapid Capabilities and Critical Technologies Office, said today the first battery of Directed Energy-Maneuver Short-Range Air Defense (DE M-SHORAD) will go to an air defense battery at Fort Sill, Okla. in the next 45 days.

The DE M-SHORAD program, one of the Army’s top 35 modernization priorities, mounts a 50-kilowatt laser onto a Stryker vehicle. It’s designed to defend soldiers against drones from size group one (up to 20 pounds) through three (up to 1,320 pounds), in addition to rockets, mortars and artillery. Thurgood said during a presentation that the Army still has “a lot to learn” about directed energy, but said the tactics, techniques and procedures (TTPs) will largely remain the same.

“The TPPs for firing a laser are almost like the TPPs for firing a bullet,” Thurgood said. “It’s just a bullet made out of light — that’s the only differences. The kill chain is the same.”

Thurgood said the DE M-SHORAD system has already participated in two live fire events. At the first live fire, the platform was able to “track” mortar rounds, but didn’t take them out. After six additional months of work, the DE M-SHORAD program was able to defeat the mortars.

To better protect smaller infantry units, Thurgood said that RCCTO recently kicked off a project to put a 20-kilowatt laser on an infantry squad vehicle, a small troop transport that can carry nine soldiers. The new project, called the Army Multi-Purpose High Energy Laser (AMP-HEL), will be delivered in FY2023.

The capabilities of the 20-kilowatt laser for AMP-HEL are more limited than its Stryker-mounted counterpart, and can only defend against group one and two unmanned systems. Soldiers would still be vulnerable to group three drones and rockets, artillery and mortars.

The Army is investing hundreds of millions of dollars in counter-unmanned aerial systems as the proliferation of low-cost drones threatens soldiers and installations both abroad and domestically. In conflicts abroad in just the last few years, drones have been proven their effectiveness in delivering munitions on targets, artillery spotting and other reconnaissance missions. In fiscal 2022 appropriations, Congress gave the Army $434 million for counter-UAS efforts, up from its budget request of $60 million.

 
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Stryker Drivers Training

U.S. Army Soldiers with Alpha Battery, 5th Battalion, 4th Air Defense Artillery, 10th Army Air & Missile Defense Command, conduct drivers Training on the M-SHORAD stryker, May 25, 2021, at the Oberdachstetten Range Complex, Germany. (U.S. Army photo by Georgios Moumoulidis)
SMD 2022 — The US Army’s rapid capabilities office plans to deliver its first combat laser to Stryker units in next few weeks and is moving ahead with a project to mount a laser weapon on another vehicle, according to the office’s director.

Speaking at the Space and Missile Defense Symposium in Huntsville, Ala., Lt. Gen. Neil Thurgood, head of the Rapid Capabilities and Critical Technologies Office, said today the first battery of Directed Energy-Maneuver Short-Range Air Defense (DE M-SHORAD) will go to an air defense battery at Fort Sill, Okla. in the next 45 days.

The DE M-SHORAD program, one of the Army’s top 35 modernization priorities, mounts a 50-kilowatt laser onto a Stryker vehicle. It’s designed to defend soldiers against drones from size group one (up to 20 pounds) through three (up to 1,320 pounds), in addition to rockets, mortars and artillery. Thurgood said during a presentation that the Army still has “a lot to learn” about directed energy, but said the tactics, techniques and procedures (TTPs) will largely remain the same.

“The TPPs for firing a laser are almost like the TPPs for firing a bullet,” Thurgood said. “It’s just a bullet made out of light — that’s the only differences. The kill chain is the same.”

Thurgood said the DE M-SHORAD system has already participated in two live fire events. At the first live fire, the platform was able to “track” mortar rounds, but didn’t take them out. After six additional months of work, the DE M-SHORAD program was able to defeat the mortars.

To better protect smaller infantry units, Thurgood said that RCCTO recently kicked off a project to put a 20-kilowatt laser on an infantry squad vehicle, a small troop transport that can carry nine soldiers. The new project, called the Army Multi-Purpose High Energy Laser (AMP-HEL), will be delivered in FY2023.

The capabilities of the 20-kilowatt laser for AMP-HEL are more limited than its Stryker-mounted counterpart, and can only defend against group one and two unmanned systems. Soldiers would still be vulnerable to group three drones and rockets, artillery and mortars.

The Army is investing hundreds of millions of dollars in counter-unmanned aerial systems as the proliferation of low-cost drones threatens soldiers and installations both abroad and domestically. In conflicts abroad in just the last few years, drones have been proven their effectiveness in delivering munitions on targets, artillery spotting and other reconnaissance missions. In fiscal 2022 appropriations, Congress gave the Army $434 million for counter-UAS efforts, up from its budget request of $60 million.

Are they going to trial it in Ukraine, would be interesting to know its capabilities.
 
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Are they going to trial it in Ukraine, would be interesting to know its capabilities.
Too important a weapon to lose in Ukraine. Besides the fact that US troops are only just training on it, the likely hood of it being doled out to allied countries seems doubtful considering you would need trainers and logistics specialists in country too.
 
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The problem with laser is it lacks range. The power of electromagnetic wave quarters with every doubling of distance. Physics. Unless they have a mini nuclear power plant to fuel laser gun ala Tony Stark's Iron Man suit, it's not practical.
 
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