Lockheed Martin has completed the first ground-based test of its Joint Air-to-Ground Missile (JAGM) Quad Launcher (JQL), marking a key milestone toward vertical launch integration.
Conducted at Yuma Proving Ground in Arizona, the demo confirmed the JAGM’s compatibility with the modular launcher, scoring a direct hit on a stationary target.
It was set at a 45-degree angle, showing flexibility and potential for deployment across multiple platforms and mission profiles.
The trial marked the first time a JAGM was fired from a canister-based launcher, with engineers gathering real-time data through ignition, flight, and impact. It also represents Lockheed’s broader push toward next-gen vertical launch systems.
“This pivotal milestone achievement showcases the versatility and adaptability of JAGM to provide a robust defense capability for multiple mission scenarios,” said Casey Walsh, program management director at Lockheed Martin Missiles and Fire Control.
“By driving progress in areas like vertical launch and counter-UAS capabilities with JAGM, we’re helping to ensure that our users have the tools they need to stay innovative and ahead of emerging threats.”
The JQL demonstration brought together teams from Lockheed’s Missiles and Fire Control and Rotary and Mission Systems divisions.
Each launcher carries four modular composite canisters that can be independently reloaded using existing JAGM procedures.
Its pivot fixture also supports both angled or vertical launches, while a built-in gas management system improves crew and platform safety.
Designed for flexibility, the JQL can engage land, air, and maritime threats with 360-degree coverage. It can be installed on ships, vehicles, patrol craft, or fixed bases and can scale from a single launcher to multi-tube configurations.
Lockheed plans to conduct a full vertical launch test in November 2025, firing the JAGM at a 90-degree angle to evaluate its performance in counter-unmanned aerial system operations.
The company said the JQL’s adaptability supports rapid integration across domains, enhancing effectiveness in complex, contested environments.
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