US: Compact laser weapon system neutralizes 25 drones at low-cost
AI Analysis
Aurelius Systems successfully demonstrated its Archimedes directed-energy system, neutralizing 25 drones (including US Army UAS) during live testing at Camp Atterbury. The system autonomously detected, tracked, and defeated Group 1 & 2 UAS targets at ranges exceeding 1,000 meters. This represents a significant step towards fielding a low-cost, scalable counter-UAS solution.
Key Takeaways
- Aurelius Systems' Archimedes system neutralized 20+ quadcopters and 5 US Army UAS during live testing.
- The system is designed to counter Group 1 & 2 UAS (up to 599kg, 250 knots).
- Archimedes autonomously detects, identifies, tracks, and defeats drone threats without relying on interceptor missiles.
- The system offers a lower cost-per-engagement compared to traditional missile-based systems, enabling repeated engagements.
- Archimedes is characterized by its compact size, low weight, power consumption, and cost (SWaP-C).
Why It Matters
The successful demonstration of Archimedes highlights the growing viability of directed-energy weapons for counter-UAS applications. This technology offers a potentially more cost-effective and sustainable solution to the increasing drone threat, particularly for protecting fixed sites and forward operating bases. The autonomous capabilities reduce manpower requirements and reaction times.
US: Compact laser weapon system neutralizes 25 drones at low-cost
Skip to content
| Future of defense
Live testing of the autonomous directed-energy system for the Pentagon Aurelius Systems
US firm Aurelius Systems has completed live testing of its Archimedes autonomous directed-energy system for the Pentagon, demonstrating the laser weapon’s ability to counter unmanned aerial system threats in a live exercise.
The test was held at Camp Atterbury in Indiana and formed part of a broader evaluation effort involving nearly 60 platforms being assessed for their potential to improve warfighter protection, operational effectiveness, and next-generation defense capabilities.
During the exercise, Archimedes engaged more than 20 quadcopter drones and five U.S. Army-supplied unmanned aerial systems. According to the company, the event marked the first time the system was tested against military-provided targets.
Laser tested against army drones
The California-based defense firm said Archimedes successfully neutralized the simulated aerial threats during the demonstration.
The result, it said, validated the system’s readiness as a counter-drone tool at a time when small unmanned aircraft are becoming a growing concern for military bases, frontline units, and critical infrastructure.
The live test also showed the system’s ability to autonomously detect, identify, track, and defeat drone threats without relying on traditional missile-based interceptors.
“Archimedes proved that autonomous directed energy systems are ready to play a meaningful role in modern air defense operations,” said Michael LaFramboise, CEO of Aurelius Systems.
Built for Group 1 and 2 UAS
Archimedes is designed to counter Group 1 and Group 2 unmanned aerial systems.
These include smaller drones and UAS platforms weighing up to 1,320 pounds (599 kilograms), with speeds of up to 250 knots, or around 288 miles per hour (463 kilometers per hour).
The system combines high-energy laser output with advanced sensing technology, allowing it to repeatedly engage targets at ranges beyond 1,000 meters, or about 3,281 feet.
Unlike missile interceptors, which can be expensive and limited by magazine depth, directed-energy systems offer a different approach.
They use concentrated energy to disable or destroy threats and can potentially deliver multiple shots at a much lower cost per engagement.
That cost advantage is becoming increasingly important as relatively cheap drones are being used in large numbers across modern battlefields.
Low-cost air defense option
Aurelius Systems has positioned Archimedes as a compact, scalable counter-UAS system that can support force protection missions.
The company says the platform offers low size, weight, power, and cost characteristics, making it easier to deploy than larger air defense systems.
“The ability to autonomously acquire, identify, track, and defeat aerial threats in a compact, [low size, weight, power, and cost] platform at