Editor’s note: This story originally appeared on Laser Wars, a newsletter about military laser weapons and other futuristic defense technology. Subscribe here.
The U.S. military is paving the way for the regular deployment of high-energy laser weapons on American soil for air defense amid the expanding threat of low-cost weaponized drones.
The Federal Aviation Administration and the U.S. Defense Department have reached a “landmark safety agreement” regarding the use of laser weapons to counter unauthorized drones at the US-Mexico border following a safety assessment that concluded such countermeasures “do not pose undue risk to passenger aircraft,” the FAA announced Friday.
The assessment and resulting agreement were the direct result of two laser incidents along the southern border of Texas in February, which prompted the FAA to abruptly close nearby airspace amid concerns over the potential impact on civilian air traffic. The incidents involved the U.S. Army’s 20 kilowatt Army Multi-Purpose High Energy Laser (AMP-HEL), a vehicle-mounted version of defense contractor AV’s LOCUST Laser Weapon System.
In the first incident, U.S. Customs and Border Patrol personnel used an AMP-HEL on loan from the Pentagon to engage an unidentified target near Fort Bliss, triggering an airspace shutdown above El Paso on Feb. 11. In the second, U.S. military personnel used an AMP-HEL near Fort Hancock to neutralize a “seemingly threatening” drone that turned out to belong to CBP, spurring another shutdown on Feb. 27.
“Following a thorough, data-informed Safety Risk Assessment, we determined that these systems do not present an increased risk to the flying public,” FAA administrator Bryan Bedford said in a statement. “We will continue working with our interagency partners to ensure the National Airspace System remains safe while addressing emerging drone threats.”
The “first of its kind” safety assessment, conducted in early March by the FAA and the Pentagon’s Joint Interagency Task Force 401 (JIATF-401) counter-drone organization at White Sands Missile Range in New Mexico, reportedly yielded two significant conclusions: 1) the LOCUST’s automatic shutoff mechanism will consistently prohibit the system from firing under unsafe circumstances, a point that AV executives have emphasized in recent weeks, and 2) in the event of a system failure, the laser beam itself cannot inflict catastrophic damage even on aircraft flying at its maximum effective range, let alone those at cruising altitudes.
Here’s how Aaron Westman, AV senior director for business development, described the LOCUST’s safety protocols in a company blog post on March 23:
Every time an operator presses the “fire” button, the system runs through a series of automated checks. Some examples include:
- Is the laser pointing away from protected “keep-out” zones?
- Are all internal subsystems operating within safe parameters?
- Is the system properly locked onto a target?
- Are safety interlock switches engaged?
- Are all software safety checks satisfied?
Each of these checks acts as a safety “vote.”
If any subsystem registers a “no vote,” the laser simply will not fire. An operator can press the trigger — and nothing happens. The system refuses to engage until all conditions are verified as safe.
These automated safeguards are built into both the hardware and the software of the system.
Here’s how DefenseScoop described the LOCUST’s potential effects on passing airframes based on an account from Army Col. Scott McLellan, JIATF-401 deputy director, of the testing at White Sands:
McLellan said the evaluation involved “localized” firing of the AMP-HEL from various distances at the fuselage of a Boeing 767 airliner that testers lugged on to White Sands to assess the system’s damaging effects, “or lack thereof” on aircraft material. He said it aimed to “disprove some myths” about the capability, noting “that energy clearly dissipates over time and space and doesn’t have the effect everyone thinks it does as far as lasers are concerned.”
A JIATF 401 spokesperson said the laser was fired at its “maximum effective range for up to 8 seconds” at the grounded fuselage, “demonstrating that even at full intensity, the laser caused no structural damage to the aircraft.”
As drone warfare spreads beyond distant conflicts, laser weapons are an increasingly attractive domestic countermeasure. While kinetic interceptors and electronic warfare may be considered suitable for chaotic battlefields, their potential for collateral effects makes them far too risky for consistent domestic applications. And even if collateral damage wasn’t a concern, expending expensive missiles on the 1,000 cartel-operated drones that cross the border with Mexico monthly is economically unsustainable, especially for a Pentagon that’s already rapidly burning through munitions as part of Operation Epic Fury against Iran. On paper, the argument seems obvious: Why not save those critical interceptors for high-end threats overseas and let domestic laser emplacements, with their deep magazines and minimal cost-per-shot, pull counter-drone duty at home?
Using laser weapons for domestic air defense wouldn’t be unprecedented. France deployed two 2 kw High Energy Laser for Multiple Applications – Power (HELMA-P) systems to secure the airspace over the country’s Île-de-France region during the 2024 Paris Olympics and Paralympics. This past September, China’s People’s Liberation Army deployed several laser weapons across Beijing during a major military parade marking the 80th anniversary of Japan’s defeat at the end of World War II. As of January, the U.K. Ministry of Defense was reportedly drawing up plans to build a domestic laser screen, albeit composed of lower-power laser dazzlers, to protect military installations and other critical infrastructure. The Pentagon has even already considered laser weapons to reinforce the airspace above Secretary of Defense Pete Hegseth and Secretary of State Marco Rubio’s residences at Fort McNair in Washington following a series of unauthorized drone incursions there.
Indeed, there’s a distinct possibility that laser weapons could see increasing domestic applications amid the U.S. military’s growing appetite for novel drone defenses. On April 2, JIATF-401 announced that it had funneled $20 million in counter-drone systems like the Dronebuster EW handset and Smart Shooter computerized riflescope to the U.S.-Mexico border in just four months.
Days later, the task force announced $100 million to enhance counter-drone capabilities for the 2026 FIFA World Cup starting in June “to protect stadiums and fan zones in 11 cities across nine states,” part of larger $600 million surge in counter-drone systems that also allocated $158 million to “defend the nation’s highest-priority defense critical infrastructure.”
With the Pentagon asking for $580 million in R&D funding just for JIATF-401 in its fiscal year 2027 budget request (and potentially $800 million in procurement cash), the task force appears poised to explore any and all possible solutions to the drone problem — and operationally, the FAA-Pentagon safety agreement helps establish laser weapons as a viable option.
That said, the safety agreement on its own is unlikely to open the floodgates for a sudden spate of laser weapon deployments along the U.S.-Mexico border, let alone for major events like the World Cup or critical infrastructure just yet. First, the agreement doesn’t appear to clarify who has final say in authorizing a laser engagement when U.S. military, CBP and FAA jurisdictions overlap — the precise ambiguity that yielded February’s airspace closures and, until resolved, will complicate future engagements during a fast-moving crisis. Second, the U.S. military’s arsenal of operational laser weapons is currently limited despite a stated goal of rapidly fielding new systems at scale within three years. Even with clear plans to surge directed energy research and development for homeland defense under President Donald Trump’s “Golden Dome for America” missile shield, the age of sleek beam directors quietly standing watch along the US-Mexico border remains a long way off.
The FAA agreement may end up laying the foundation for a true domestic laser air defense architecture — a “Laser Dome” in all but name. Whether the U.S. military actually builds it, however, will depend not just the Pentagon’s promise to deploy laser weapons at scale, but whether Washington can finally sort out who’s in charge when a beam crosses into civilian airspace.
