“World’s most fearsome missile” – The US Army unleashes Dark Eagle, a 1,725-mile hypersonic marvel

The U.S. Army is preparing to deploy its Long-Range Hypersonic Weapon (LRHW), known as Dark Eagle, to its first operational unit by the end of the fiscal year 2025. This significant milestone was confirmed by a defense official, marking a critical advancement in the Army’s strategic capabilities. Despite the initial excitement, the development of the LRHW has experienced numerous delays due to challenges encountered during testing phases. The weapon’s design, which allows it to cover approximately 1,725 miles, aims to enhance the United States’ military prowess by providing a strategic advantage in various operational environments.

U.S. Army’s Hypersonic Missile

At the heart of the LRHW is a ground-launched missile equipped with a hypersonic glide body, supported by necessary transport, support, and fire control equipment. The missile is capable of reaching speeds exceeding 3,800 miles per hour, allowing it to soar to the edge of the Earth’s atmosphere. This high speed enables it to evade current air and missile defense systems, delivering its payload with minimal warning. The LRHW’s primary objective is to counter Anti-Access/Area Denial (A2/AD) strategies, neutralize long-range enemy capabilities, and target high-value objectives.

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The development of this system relies heavily on collaboration between the Army and the Navy. A key component of the LRHW is the Common Hypersonic Glide Body (C-HGB), which, when attached to a 34.5-inch booster developed by the Navy, becomes known as the Navy-Army All-Up Round plus Canister (AUR+C). This design allows for deployment from multiple platforms, including surface vessels and submarines, enhancing its operational flexibility. Lockheed Martin and Northrop Grumman have been pivotal in developing the missile component, ensuring that this strategic weapon meets the diverse needs of the U.S. military.

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Mach 5

The C-HGB is based on an alternate re-entry system developed in collaboration with Sandia National Laboratories. Dynetics, a subsidiary of Leidos, is under contract to create prototypes for both military branches. The glide body is propelled by a booster rocket, accelerating it to hypersonic speeds before the expendable booster is jettisoned. This design allows the LRHW to travel at Mach 5 or faster, making it maneuverable and difficult for adversaries to intercept.

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The LRHW’s organizational structure consists of batteries, each equipped with four Transporter Erector Launchers (TELs), carrying two AUR+C missiles each. A Battery Operations Center provides command and control. Despite these ambitious plans, the program has encountered significant hurdles. A report by the Congressional Budget Office in 2023 emphasized the need for rigorous flight testing to ensure the security of the delicate electronics within hypersonic missiles and to better understand material performance under extreme conditions.

Delays

The Army initially scheduled three flight tests before introducing the first battery. However, the testing process has faced numerous setbacks. A failed booster flight in October 2021 and another unsuccessful full missile test in June 2022 highlighted the complexities involved. Further delays occurred in October 2022 when the Department of Defense postponed a scheduled test to address previous issues. A subsequent attempt in March 2023 was scrubbed due to discrepancies discovered during pre-flight checks.

The most recent planned flight test, slated for September 2023, did not materialize, and the Army acknowledged that it would miss its target of fielding the LRHW by the end of the fiscal year. A report from the Government Accountability Office in June 2024 underscored integration challenges as a key factor delaying initial deployment and full operational capability of the LRHW system. These delays have pushed the timeline for deployment further into the future, highlighting the complexities involved in developing such advanced military technology.

The LRHW represents a significant leap in military technology, promising to enhance the strategic capabilities of the U.S. Army. However, the journey toward deployment has been fraught with challenges, as evidenced by the delays and technical hurdles encountered. As the Army continues to refine this cutting-edge weapon, one must wonder how its eventual deployment will reshape global military dynamics. What new challenges and opportunities will the introduction of the LRHW bring to the world stage?

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