US Navy tests modular laser counter-drone system, downs targets at sea
AI Analysis
The US Navy successfully tested the LOCUST Laser Weapon System aboard the USS George H.W. Bush, demonstrating its capability to track and destroy aerial targets using a high-energy laser. This modular system, developed by AeroVironment, offers a cost-effective and scalable counter-drone solution that integrates seamlessly with existing naval defenses.
Key Takeaways
- US Navy tested the LOCUST Laser Weapon System on USS George H.W. Bush.
- The system tracked and destroyed multiple drones using a high-energy laser.
- LOCUST is modular, scalable, and deployable without extensive ship redesign.
- The test was a joint effort with the U.S. Army Rapid Capabilities and Critical Technologies Office.
- AeroVironment's system complements existing missile and electronic warfare tools.
Why It Matters
The successful test of the LOCUST system marks a significant advancement in naval counter-drone capabilities, providing a cost-effective solution against increasingly complex drone threats. This development enhances the Navy's ability to protect assets at sea and aligns with broader Pentagon efforts to address low-cost, high-volume aerial threats using directed energy weapons.
US Navy tests modular laser counter-drone system, downs targets at sea
Published: 2026-04-21T19:38:27+00:00 Author: Aamir Khollam
Summary
The US Navy has conducted a live-fire demonstration on the USS George H.W. Bush (CVN-77), where a high-energy laser system tracked and destroyed aerial targets. The demonstration, conducted by AeroVironment, indicated a shift towards faster, lower-cost counter-drone defenses that do not rely on traditional munitions. The test, conducted in October 2025, demonstrated the LOCUST Laser Weapon System, which can operate modular, scalable, and deploy without extensive ship redesign or long integration timelines. The system's performance at sea underscores its role in countering unmanned aerial threats. It can complement existing missile and electronic warfare tools, offering a cost-effective response to drone swarms and repeated attacks.
Story
US Navy tests modular laser counter-drone system, downs targets at sea Skip to content Containerized LOCUST Laser Weapon System (LWS) set up for a live-fire test. Chief Petty Officer Brian Brooks, Commander, Naval Air Force Atlantic The U.S. Navy is accelerating its push into directed energy weapons as drone threats grow more complex and persistent. In its latest move, the service has tested a high-energy laser system at sea, signaling a shift toward faster, lower-cost counter-drone defenses that do not rely on traditional munitions. The development reflects a broader Pentagon effort to counter low-cost, high-volume aerial threats. That effort came aboard the USS George H.W. Bush (CVN-77), where a palletized laser weapon tracked and destroyed aerial targets in a live-fire demonstration. The test offers a glimpse into how future naval defenses could operate modular, scalable, and ready to deploy without extensive ship redesign or long integration timelines. ## Laser test at sea The demonstration featured the LOCUST Laser Weapon System developed by AeroVironment. Conducted in October 2025, the trial showed the system engaging multiple drones using its Palletized High Energy Laser (P-HEL) setup. Operators tracked and neutralized targets in real time. The system maintained accuracy despite the carrier’s movement. That result marks a key milestone for shipborne laser integration and operational viability. The Navy partnered with the U.S. Army Rapid Capabilities and Critical Technologies Office (RCCTO) for the test. The joint effort highlights how different branches are aligning around directed energy solutions and shared system architectures. “LOCUST delivers effective, all-domain protection against emerging drone threats at the speed of light—on any platform, in any domain, for any mission,” said John Garrity, Vice President of Directed Energy Systems at AV. “Rolling LOCUST onto a ship and quickly initiating operations facilitates the expanded use of high-energy lasers across the Fleet without t