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Northrop Grumman Completes 16th Successful PrSM Propulsion Test

Northrop Grumman completes its 16th consecutive successful test of the Precision Strike Missile propulsion system, enhancing U.S. Army long-range fires.

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This article is based on an official press release from Northrop Grumman.

Northrop Grumman Validates PrSM Propulsion with 16th Consecutive Successful Test

On January 20, 2026, Northrop Grumman Corporation announced a significant milestone in the modernization of U.S. Army long-range fires. The company successfully completed its 16th consecutive production acceptance test for the Precision Strike Missile (PrSM) Increment 1 solid rocket motor. Conducted at the Allegany Ballistics Laboratory in West Virginia, this static fire test underscores the reliability of the propulsion system designed to replace the Cold War-era ATACMS.

The event serves as a critical validation point for the company’s broader “Tactical Propulsion Portfolio.” As the prime propulsion provider for the PrSM program, led by prime contractor Lockheed Martin, Northrop Grumman is leveraging modernized manufacturing infrastructure to deliver these next-generation systems at scale.

Validating the “Gold Standard” of Reliability

According to the company’s official announcement, the test conducted at the Naval Industrial Reserve Ordnance Plant (NIROP) within the Allegany Ballistics Laboratory (ABL) verified that the motor meets all rigorous performance requirements. These metrics include specific thrust profiles and structural integrity under simulated extreme conditions.

The “16th consecutive successful” designation is emphasized by the company as a primary indicator of manufacturing consistency. In the domain of solid rocket motors, where a single failure can ground a fleet or endanger personnel, this streak represents a mature production line ready for high-volume fielding.

Erik Buice, Vice President of Missile Products at Northrop Grumman, highlighted the significance of this consistency in a statement:

“This test is our 16th consecutive, successful, PrSM production acceptance test. This string of successes reinforces the strength of our tactical propulsion portfolio and the teams who make it possible. We’re building rocket motors that don’t just meet performance targets, they redefine what’s possible for range, responsiveness and reliability when needed most.”

Technical Evolution: PrSM vs. ATACMS

The Precision Strike Missile is the U.S. Army’s top modernization priority for Long Range Precision Fires (LRPF). The propulsion system tested this week is central to the platform’s ability to outperform the legacy MGM-140 Army Tactical Missile System (ATACMS).

Based on technical specifications released regarding the program, the new propulsion system offers several distinct advantages:

  • Extended Range: The motor enables a range exceeding 400 kilometers, significantly surpassing the approximate 300-kilometer limit of the ATACMS.
  • Increased Capacity: The optimized diameter of the motor allows two PrSM rounds to fit inside a standard launch pod compatible with M142 HIMARS and M270 MLRS launchers. This effectively doubles the firing capacity compared to the single-missile ATACMS pod.
  • Speed and Survivability: The system is designed to achieve speeds of Mach 3+, reducing flight time and increasing the probability of penetrating enemy air defenses.

Industrial Modernization and the Broader Portfolio

Northrop Grumman used the January 20 event to showcase its wider industrial capabilities. The company reports that the Allegany Ballistics Laboratory has undergone significant transformation, evolving into a “digital factory.” This includes the integration of a new Missile Integration Facility (MIF) and the use of digital twins to streamline the supply-chain.

Frank DeMauro, Vice President of Weapon Systems at Northrop Grumman, noted the role of infrastructure in meeting current demand:

“Northrop Grumman is delivering advanced weapons capabilities at scale today… The cutting-edge Missile Integration Facility expands manufacturing capacity and our team’s ability to deliver for our customers at a critical time.”

The press release indicates that this infrastructure supports more than just the PrSM. It is also pivotal for the Guided Multiple Launch Rocket System (GMLRS), for which Northrop Grumman is a primary supplier, as well as the Mk 72 booster used in Navy Standard Missile systems.

AirPro News Analysis: The Strategic Value of Consistency

While the technical specifications of the PrSM are impressive, the specific emphasis on the “16th consecutive” test in Northrop Grumman’s messaging points to a deeper strategic narrative: logistics reliability. In the context of recent global conflicts, the ability of the U.S. industrial base to sustain the production of precision munitions has been scrutinized.

By highlighting a flawless streak of acceptance tests, Northrop Grumman is signaling to the Department of Defense that its solid rocket motor supply chain, often a bottleneck in missile production, is stable. This reliability is a prerequisite for the multi-year procurement contracts the Army utilizes to stockpile munitions for potential near-peer deterrence in the Indo-Pacific theater.

Frequently Asked Questions

What is the Precision Strike Missile (PrSM)?
The PrSM is the U.S. Army’s next-generation surface-to-surface missile, designed to replace the ATACMS. It offers longer range, higher speed, and double the loadout capacity per launcher.

Who manufactures the PrSM?
Lockheed Martin is the prime contractor for the missile system, while Northrop Grumman manufactures the solid rocket motor propulsion system.

What is the range of the PrSM Increment 1?
The baseline Increment 1 missile has a range of over 400 kilometers. Future increments are expected to extend this range significantly, potentially up to 1,000 kilometers with advanced propulsion.

Where was the test conducted?
The test took place at the Allegany Ballistics Laboratory (ABL) in Rocket Center, West Virginia, a facility operated by Northrop Grumman.

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Photo Credit: Northrop Grumman

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Vertex Aerospace Wins $500M USAF C-12 Logistics Contract

Vertex Aerospace secures a $500M IDIQ contract for global C-12 fleet logistics support across 23 locations through 2031.

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Vertex Aerospace LLC has secured a firm-fixed-price, indefinite-delivery/indefinite-quantity contract with a ceiling of $500,000,000 to provide global contractor logistic support for the United States Air Force C-12 aircraft fleet.

Awarded on June 26, 2026, by the Air Force Life Cycle Management Center at Tinker Air Force Base (TIK), the agreement ensures operational readiness for the military variant of the Beechcraft King Air. According to the Department of Defense contract announcement, the C-12 fleet provides time-sensitive movement of personnel, cargo, and medical evacuation services.

Mission and command support

The logistics support contract covers a broad operational mandate. Beyond standard transport and medical evacuation, Vertex Aerospace will provide test support for several key defense entities. These include the Air Force Materiel Command (AFMC), the Defense Intelligence Agency (DIA), the Defense Security Cooperation Agency (DSCA), and Pacific Air Forces (PACAF).

The acquisition was conducted as a competitive process, with the Air Force receiving three offers. The contracts also involves Foreign Military Sales, reflecting the international footprint of C-12 operations and allied support requirements.

Global footprint and funding

Work under the contract will be distributed across 23 locations worldwide, supporting the highly dispersed nature of the C-12 fleet. Domestic work sites include Joint Base Elmendorf-Richardson in Alaska, Edwards Air Force Base in California, Joint Base Andrews in Maryland, Holloman Air Force Base in New Mexico, and Vertex Aerospace facilities in Madison, Mississippi.

International support locations span South America, Africa, Europe, and Asia-Pacific. Designated sites include Buenos Aires, Argentina; Gaborone, Botswana; Brasilia, Brazil; Bogota, Colombia; Cairo, Egypt; Accra, Ghana; Tegucigalpa, Honduras; Budapest, Hungary; Yokota Air Base, Japan; Nairobi, Kenya; Rabat, Morocco; Manila, Philippines; Riyadh, Saudi Arabia; Bangkok, Thailand; Ankara, Turkey; and Oslo, Norway.

Initial funding obligated at the time of the award includes $237,125 in fiscal 2026 operation and maintenance funds, $7,250 in research, development, test, and evaluation funds, and $5,659 in Foreign Military Sales funds. The Department of Defense expects all work to be completed by June 30, 2031.

AirPro News analysis

The C-12 Huron serves as a critical utility workhorse for the United States military-aircraft and allied nations. Because these twin-engine turboprops operate in small detachments across a vast geographic area rather than being concentrated at a few major hubs, maintaining fleet readiness requires a highly distributed logistics network. We view this $500,000,000 ceiling contract as a reflection of the logistical complexity involved in supporting a globally dispersed fleet. By consolidating support under a single indefinite-delivery/indefinite-quantity vehicle, the Air Force Life Cycle Management Center ensures consistent maintenance standards and parts availability from domestic test centers to remote international support locations.

Sources: U.S. Department of Defense

Photo Credit: Yokota Air Base – Air Force

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Airbus and Alta Ares Partner on AI Counter-Drone Integration

Airbus Defence and Space and Alta Ares signed an MOU to integrate AI-guided interceptors into Airbus air defense command systems.

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Airbus Defence and Space and European defense technology company Alta Ares signed a memorandum of understanding on June 11, 2026, to integrate artificial intelligence-guided counter-drone interceptors into Airbus air defense command systems.

Announced during the ILA Berlin Air Show, the partnership aims to create a unified sensor-to-shooter chain capable of neutralizing mass-deployed, one-way attack drones. According to a press release issued by Airbus, the agreement will link Alta Ares interceptor hardware and targeting software directly into existing Airbus battle management networks.

Integration of AI and interceptor hardware

The technical integration focuses on connecting Alta Ares systems with Airbus command software. Alta Ares will integrate its Pixel Lock artificial intelligence platform, along with its Black Bird medium-range and X-Lock short-range interceptors, into the Airbus Fortion Integrated Battle Management Software (IBMS) and the Fortion Surface-to-Air Missile Operation Centre (SAMOC).

Alta Ares Co-Founder and Chief Executive Officer Hadrien Canter stated that modern air defense requires both software and hardware operating simultaneously at scale.

“Integrating Pixel Lock and our interceptors into Fortion IBMS means operators get a single, coherent sensor to shooter chain from detection to neutralisation. That’s what theatre commanders are actually asking for,” Canter said.

François Lombard, Head of Connected Intelligence at Airbus Defence and Space, noted that defending against suicide drones is an urgent priority in current asymmetric conflict environments. He emphasized the need for cost-efficient solutions that fit within the broader air defense ecosystem to protect European airspace and allied forces.

Airbus expands counter-UAV portfolio

The Alta Ares agreement follows a series of rapid expansions in the Airbus counter-Uncrewed Aerial Systems (C-UAS) portfolio through collaborations with specialized defense startups. The prime contractor has utilized the ILA Berlin event to solidify multiple integration partnerships.

On June 10, 2026, Airbus Helicopters signed a cooperation agreement with German drone manufacturer Quantum Systems. That partnership will explore integrating C-UAS interceptors onto military helicopters, beginning with the multi-role H145M platform.

Earlier in the year, on March 30, 2026, Airbus demonstrated its own Bird of Prey interceptor drone. During that test, the autonomous system engaged a target using a Mark I missile developed by Estonian startup Frankenburg Technologies.

Alta Ares scales production

Founded in 2024, Alta Ares specializes in counter-drone systems and on-board artificial intelligence. The company saw its systems first operationally deployed in Ukraine during 2024 and has since expanded to meet military demand for defenses against autonomous drones.

On June 9, 2026, two days prior to the Airbus announcement, Alta Ares secured €50 million in a Series A funding round led by Air Street Capital. The company stated the funding will be used to scale the production of its X-Lock and Black Bird interceptor platforms.

AirPro News analysis

The rapid succession of Airbus partnerships at ILA Berlin highlights a strategic shift for the aerospace manufacturer. Rather than developing bespoke interceptor solutions entirely in-house, Airbus is positioning its Fortion software suite as the central nervous system for European air defense while plugging in specialized hardware from agile startups like Alta Ares, Quantum Systems, and Frankenburg Technologies. We view this modular approach as a direct response to the rapid iteration of drone warfare observed in recent conflicts, where traditional surface-to-air missiles are economically unviable against mass-deployed, low-cost autonomous threats. By securing integration rights with well-funded startups, Airbus ensures its command-and-control architecture remains indispensable to European defense ministries.

Sources: Airbus

Photo Credit: Airbus

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Defense & Military

IAI and Berlin Sign MoU for Aerospace Innovation Center

Israel Aerospace Industries and the State of Berlin signed an MoU to establish an aerospace and defense innovation center in Berlin.

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Israel Aerospace Industries (IAI) and the State of Berlin signed a strategic Memorandum of Understanding (MoU) on June 11, 2026, to establish a new aerospace and defense innovation center in the German capital.

Finalized during the ILA Berlin Air Show, the agreement aims to support startups in the aerospace, defense, security, and dual-use sectors through structured accelerator programs. According to a press release issued by IAI, the initiative is designed to expand the manufacturer’s industrial footprint in Germany, build local production capacity, and create highly skilled jobs in the Berlin region.

Structuring the innovation ecosystem

The new Berlin facility will be modeled after three existing international accelerator programs operated by IAI: Catalyst in the United States, NeuSPHERE in India, and ASTRA in Israel. By integrating into Berlin’s local technology sector, the center will connect emerging technologies with operational defense requirements and global market opportunities.

“This initiative reflects our long-term relationship and commitment to Germany and our vision of building deep, strategic partnerships that combine innovation, industry and operational expertise,” said Boaz Levy, Chairman of the Board at IAI.

Berlin Governing Mayor Kai Wegner noted that the agreement brings first-class aerospace and defense knowledge to the local ecosystem. Wegner stated that establishing such a center in the capital is critical in light of current global crises, supporting aerospace investment and encouraging ties between established companies and startups.

Deepening German-Israeli defense procurement

The MoU follows a period of significant defense procurement activity between IAI and the German government. IAI serves as the prime contractor for the Arrow-3 missile defense system, which was delivered to Germany in late 2025. The system recently became operational as a cornerstone of the country’s broader missile defense architecture.

Beyond the Arrow-3 system, IAI supplies Heron TP drones to the German Air Force and the BlueWhale autonomous submarine to the German Navy. Both the drone and submarine programs were developed in collaboration with German industrial partners.

AirPro News analysis

We view this innovation center as a logical progression of IAI’s strategy to embed itself within the domestic defense industrial bases of its major export customers. By establishing a physical research and development presence in Berlin, IAI transitions from a foreign supplier to a local stakeholder. For the State of Berlin, securing a major international defense contractor’s accelerator program aligns with regional efforts to pivot the local technology sector toward defense and dual-use applications, a trend accelerating across Europe following recent shifts in continental security postures.

Sources: Israel Aerospace Industries

Photo Credit: Israel Aerospace Industries

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