U.S. F-35s and Canadian CF-18 Fighters Train to Stop Cruise Missiles Approaching Through the Arctic.

Canadian CF-18 fighters and U.S. Air Force F-35s trained together in Alaska during Arctic Edge 26 to rehearse cruise missile defense operations under the North American Aerospace Defense Command. The exercise strengthens North America’s ability to detect and intercept low-flying threats approaching through the Arctic, a growing concern as long-range cruise missile capabilities expand globally.

North American Aerospace Defense Command is using paired Canadian CF-18 fighters and U.S. Air Force F-35s in Alaska to rehearse cruise missile defense, a mission set that directly underpins North America’s ability to detect and defeat low-flying, long-range threats approaching through the Arctic. In a 4 March 2026 post on X, NORAD said CF-18s from the Canadian NORAD Region launched in support of Arctic Edge 26 to conduct cruise missile defense activities alongside F-35s from the Alaskan NORAD Region, stressing that training against simulated airborne threats strengthens layered defense and improves deterrence and defense from “every avenue of approach.”

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NORAD is conducting Arctic Edge 26 training in Alaska, pairing Canadian CF-18 fighters with U.S. Air Force F-35s to rehearse detection and interception of low-flying cruise missile threats approaching North America through the Arctic (Picture Source: U.S. NORAD)

The operational logic of the event sits inside Arctic Edge 2026, a joint and combined field training exercise led by NORAD and U.S. Northern Command running across Alaska and Greenland from 23 February to 13 March 2026. NORAD’s own exercise framework explicitly lists Cruise Missile Defense as a key objective, alongside counter small unmanned aerial systems and the protection of critical infrastructure, which signals that AE26 is being used to stress not just tactical intercept skills but the wider homeland defense kill chain in Arctic conditions. This matters because the northern approaches compress warning timelines: cruise missiles can exploit terrain masking and gaps in sensor coverage, forcing defenders to fuse disparate tracks quickly, build a reliable identification picture, and hand off targets to the best shooter before the threat reaches population centers or strategic sites.

What makes the 4 March sortie pairing noteworthy is the cross-region integration: CANR CF-18s operating with ANR F-35s is more than a photo opportunity, it is a practical test of how a binational command moves information and authority across seams. CANR’s mission is aerospace surveillance, identification, control and warning for the defense of Canada and North America, with CF-18 aircraft kept on alert to respond to potential aerial threats. On the U.S. side, the Alaskan NORAD Region is tasked with directing bilateral air operations within Alaska to defend against hostile airborne threats, making ANR the front-line region for intercept operations that begin in the Arctic and often require immediate coordination with Canadian forces as tracks migrate across air defense identification zones.

Training “against simulated airborne threats” is where cruise missile defense becomes a distinctly different air mission than traditional bomber intercepts. The goal is not simply to visually identify a large aircraft, but to find, classify, and prosecute smaller targets that may appear late, blend into clutter, and demand tightly managed geometry for engagement. In that context, the CF-18 brings proven alert and intercept capacity inside Canada’s NORAD construct, while the F-35 contributes a sensor and data-fusion advantage that is increasingly valuable in the opening minutes of a complex raid. The U.S. Air Force fact sheet highlights the F-35’s Distributed Aperture System for spherical situational awareness and missile warning, and an internal targeting system capable of extended-range detection and precision targeting, which are attributes aligned with building and sharing a high-confidence track picture against difficult airborne threats.

The deeper capability question is how well NORAD can translate fifth-generation sensing into a binational, layered defense outcome in real time. Cruise missile defense in the Arctic is a team sport: fighters provide mobile detection, identification, and engagement options, but they must be orchestrated through command and control, tanking, and a common recognized air picture that can survive communications constraints and harsh weather. Arctic Edge 2026 is designed to integrate all-domain command-and-control relationships for homeland defense in the Arctic, and that phrasing is a tell that the exercise is as much about decision speed and data flow as it is about tactical flying. Local reporting in Alaska has also underscored that Arctic Edge 2026 is explicitly framed around defending the homeland from missile and drone attack scenarios, reinforcing that the simulated threat set is intended to mirror the trajectory of real-world risks rather than legacy air-policing problems.

Finally, the timing of the Arctic Edge cruise missile defense training dovetails with NORAD’s steady cadence of real intercept operations in the same geography, which keeps pressure on readiness and interoperability. On 4 March, NORAD is showing the practice run: fighters launching to train against simulated threats in Alaska. On 5 March, NORAD publicly detailed a live response to Russian aircraft operating in the Alaskan and Canadian ADIZ, involving both U.S. fighters including F-35s and Canadian CF-18s, plus enabling assets such as tankers and an E-3 airborne warning and control aircraft. That juxtaposition highlights the practical value of Arctic Edge 26: it provides a controlled environment to rehearse the same binational processes, communications, and intercept choreography that are demanded without notice when real tracks appear.

Arctic Edge 26’s CF-18 and F-35 cruise missile defense activity is best read as NORAD tightening the weak links in the northern kill chain: shared detection, rapid identification, and cross-border engagement coordination under Arctic constraints. By forcing CANR and ANR fighters to operate together against simulated airborne threats, NORAD is not merely polishing pilot proficiency, it is validating that its layered defense can function as a single, binational system when the hardest problem arrives from the hardest direction.