Russian S-400 or R-37 shoots down US-made F-16 in Ukraine, according to BBC reports

On April 12, 2025, a Ukrainian F-16 fighter jet was downed during a combat operation, with Ukrainian military sources suggesting that a Russian missile—potentially from an S-400 surface-to-air system or an R-37 air-to-air missile—was likely the cause.

This incident, confirmed by Ukraine’s Air Force and reported by the BBC, adds to the ongoing air conflict between Ukraine and Russia. While the downing of the aircraft and its pilot has garnered significant attention, the type of missile used provides deeper insights into the shifting dynamics of this conflict than the event itself.

The selection of the missile, whether a ground-based interceptor or a long-range air-to-air option, highlights Russia’s strategic adjustments and the difficulties Ukraine encounters in incorporating advanced Western technology into a challenging and high-stakes combat environment.

According to the BBC, which cited Ukrainian military sources, three missiles were launched at the F-16, with one—either an S-400 guided missile or an R-37—successfully hitting the aircraft. Ukrainian officials have dismissed the possibility of friendly fire, asserting that no Ukrainian air defense systems were operational in the vicinity at the time of the incident.

In contrast, Russia’s Defense Ministry asserted that the aircraft was struck by a surface-to-air missile but did not provide details on the specific system used. The absence of definitive evidence raises questions about the exact weapon involved, yet the two systems being discussed shed light on the technological and tactical competition taking place in Ukraine’s airspace.

The S-400 Triumf, referred to by NATO as the SA-21 Growler, is a key component of Russia’s air defense strategy. Developed by NPO Almaz in the 1990s as an advancement of the earlier S-300 series, the S-400 was introduced into service in 2007 and has since established itself as one of the most sophisticated surface-to-air missile systems globally.

The system can engage targets at distances of up to 250 miles using its longest-range missile, the 40N6E. However, it more frequently employs shorter-range missiles such as the 48N6E3, which has a range of approximately 150 miles, particularly against fast-moving aircraft.

Equipped with the 92N6E radar, commonly known as “Grave Stone” by NATO, the system can simultaneously track up to 100 targets, providing data to launchers that can fire missiles at speeds greater than Mach 6. Its capability to counter low-flying aircraft, cruise missiles, and even ballistic threats enhances its effectiveness in denying airspace to opponents.

What distinguishes the S-400 is its incorporation into a multi-layered defense network. When combined with shorter-range systems like the Pantsir-S1 and bolstered by electronic warfare units, it forms a robust defensive shield. In Ukraine, Russia has deployed S-400 battalions to safeguard critical areas, including occupied regions and border areas such as Kursk and Belgorod.

If an S-400 was indeed responsible for downing the F-16, it indicates that the Ukrainian aircraft was operating within a heavily fortified area, likely near Sumy Oblast, where hostilities have escalated. The system’s extensive range would have enabled Russian forces to target the F-16 from a secure distance, taking advantage of vulnerabilities in Ukraine’s air defense suppression capabilities.

The R-37M, known as NATO’s AA-13 Arrow, offers a different perspective. This air-to-air missile, created by Vympel in the 1980s and updated in the 2010s, ranks among the longest-range missiles of its type, capable of hitting targets up to 186 miles away. Launched from platforms such as the MiG-31BM interceptor or the Su-35S fighter, the R-37M reaches speeds of Mach 6, utilizing a blend of inertial guidance and active radar homing to track agile targets.

The R-37M missile, equipped with a 132-pound high-explosive warhead, is engineered to eliminate a range of targets, from fighter jets to reconnaissance aircraft, making it a formidable tool against high-priority threats. In Ukraine, Russia has deployed the R-37M selectively yet effectively, often targeting Ukrainian aircraft from distances that exceed their own detection and countermeasure capabilities.

If an R-37M were responsible for downing an F-16, it would suggest that a Russian aircraft, likely a MiG-31, was operating at a high altitude, utilizing its advanced Zaslon-M radar to spot the Ukrainian jet from a significant distance. The missile’s extensive range enables Russian pilots to engage targets without entering contested airspace, thereby safeguarding their own aircraft while compelling Ukrainian pilots to adopt a defensive posture.

This situation raises important questions regarding the F-16’s mission—whether it was engaged in a strike operation, providing air support, or attempting to intercept Russian forces. The deployment of the R-37M would also underscore Russia’s dependence on stand-off weapons to assert air dominance in regions where Ukraine’s Western-supplied aircraft increasingly threaten their operations.

Both the R-37M and the S-400 system exemplify Russia’s overarching strategy to establish a “no-fly” zone over much of Ukraine’s frontline. The S-400 serves as a ground-based anchor for this strategy, projecting power over extensive distances and hindering Ukraine’s ability to maneuver freely.

In contrast, the R-37M extends this control into the aerial domain, enabling Russia to eliminate targets from a safe distance beyond retaliation. Together, these systems create a multi-layered defense that poses challenges even to advanced aircraft like the F-16, which was originally designed by General Dynamics [now Lockheed Martin] in the 1970s for a different type of conflict.

To grasp the challenges posed by these weapons, it is essential to consider the F-16 itself. The Fighting Falcon is a single-engine multirole fighter celebrated for its agility and adaptability. Measuring 49 feet in length with a wingspan of 32 feet, it can achieve speeds of Mach 2 and boasts a combat radius exceeding 340 miles when fully equipped.

The Pratt & Whitney F100 or General Electric F110 engine delivers remarkable thrust, complemented by the AN/APG-68 radar that facilitates all-weather targeting capabilities. This aircraft can carry a diverse range of munitions, including AIM-120 AMRAAM missiles and precision-guided bombs. Its electronic countermeasures, such as the ALQ-131 jamming pod, enhance its ability to avoid threats. For Ukraine, the F-16 represents a substantial advancement over the Soviet-era MiG-29s and Su-27s, providing superior avionics and compatibility with Western weaponry.

However, despite its advantages, the F-16 is not without vulnerabilities. Ukraine is contending with a battlefield environment that differs significantly from those it previously excelled in, such as Operation Desert Storm in 1991, where coalition air forces operated with complete dominance.

During that operation, F-16s conducted thousands of sorties, targeting Iraqi positions without fear due to strong support from AWACS aircraft, refueling tankers, and electronic warfare resources. In contrast, Ukraine’s F-16s function with limited support infrastructure. Secure airfields are few, ground personnel are overextended, and the integration with NATO’s command-and-control systems remains incomplete.

Lacking real-time intelligence from AWACS or similar systems, Ukrainian pilots must depend on their aircraft’s onboard sensors, which may have difficulty detecting threats like the R-37M at long distances or the S-400’s radar from deep within Russian-controlled areas.

This situation also highlights the historical development of air defense systems. The S-400 has its origins in the Soviet S-75, which infamously downed a U-2 spy plane over Cuba in 1962.

Over the years, Soviet and Russian engineers have continuously improved their systems to counter Western air capabilities, focusing on long-range, radar-guided missiles designed to neutralize NATO’s numerical superiority. The R-37M, for its part, evolved from Cold War initiatives aimed at countering American bombers and reconnaissance aircraft, adapting its role to engage modern fighter jets.

Both weapon systems have been utilized in conflicts such as Syria, where Russia deployed S-400s to safeguard its bases and employed air-to-air missiles to maintain control over disputed airspace. Their effectiveness against a Western-designed aircraft like the F-16 represents a significant achievement, demonstrating their capability to counter the technology they were designed to overcome.

When comparing these systems to their Western equivalents, their advantages and drawbacks become evident. The S-400 is frequently compared to the U.S. Patriot system, which also employs long-range missiles and sophisticated radar technology.

However, the Patriot system depends on closer integration with allied aircraft and satellites, a resource that Ukraine does not possess. The R-37M lacks a direct counterpart in NATO’s inventory; the AIM-120 AMRAAM, utilized by F-16s, has a range of approximately 100 miles, which is considerably shorter than the R-37M’s 186 miles.

This difference compels Ukrainian pilots to adopt a defensive strategy, evading threats that they cannot effectively counter. In contrast, Russia’s capability to integrate these weapons with platforms like the Su-35 or MiG-31 creates a synergy that Ukraine finds challenging to replicate without enhanced support.

The air conflict in Ukraine has transformed significantly since Russia’s invasion commenced in 2022. Initially, Ukraine depended on Soviet-era aircraft and basic air defense systems to repel Russian air assaults. The arrival of F-16s, provided by nations such as the Netherlands and Denmark starting in 2024, was intended to alter this dynamic, equipping Ukraine with a platform capable of contesting Russian air superiority.

Russia has adjusted its strategies, honing its tactics to take advantage of the F-16’s weaknesses. For example, the mobility of the S-400 system enables Russian forces to swiftly relocate their launchers, thereby avoiding Ukrainian attacks. The use of the R-37M from high-altitude interceptors such as the MiG-31 adds another layer of complexity to Ukraine’s operational planning, compelling pilots to carefully consider the risks of engaging with a distant and hidden threat.

This situation likely unfolded in an area like Sumy Oblast, where Ukraine has executed cross-border missions into Russia’s Kursk region. In response, Russian forces have launched significant airstrikes and increased troop presence, transforming the region into a critical conflict zone.

An F-16 operating in this context would have been assigned to assist ground forces, intercept Russian drones, or target locations across the border. However, operating near Russia’s multi-layered defenses—comprising S-400 systems on the ground and MiG-31s in the air—poses significant risks even for the most advanced aircraft. Ukrainian pilots, often trained in intensive programs abroad, are under considerable pressure to adapt to these challenging conditions, undertaking complex missions with limited resources.

The implications of this incident reach far beyond the immediate battlefield. The F-16 program is a key element of Western support for Ukraine, representing NATO’s dedication to countering Russian aggression. Each aircraft loss raises concerns about the long-term viability of this support. Ukraine’s air force is functioning at a fraction of its pre-war strength, with losses exceeding the rate of replacements.

Providing additional jets necessitates not only the aircraft themselves but also spare parts, trained personnel, and secure bases—resources that are increasingly strained due to ongoing Russian assaults. This incident may lead NATO to reevaluate its approach to equipping Ukraine, potentially speeding up the provision of advanced countermeasures or longer-range weaponry to help balance the conflict.

Russia’s viewpoint, heavily promoted by state media, portrays the incident as a showcase of its military advancements. However, without independent verification, these assertions remain unsubstantiated. As reported by the BBC, Ukraine is conducting an investigation to determine the incident’s cause, but the complexities of war hinder the pursuit of clear answers.

What is evident is that Russia’s air defense systems, both ground-based and airborne, have evolved to counter the threats posed by Western-supplied aircraft. The S-400’s capability to track and engage fast-moving targets, along with the R-37M’s long-range strike potential, demonstrates a level of sophistication that complicates Ukraine’s military strategy.

Historically, air forces have encountered similar obstacles when integrating new technologies. During the Vietnam War, early U.S. aircraft like the F-4 Phantom faced significant challenges against Soviet-supplied MiGs and surface-to-air missiles, necessitating tactical adjustments by pilots. In Ukraine, the F-16 is undergoing a comparable challenge, as it confronts 21st-century defenses with a design from the 1970s.

The effectiveness of the F-16 in previous conflicts was largely dependent on robust logistical support and air superiority—conditions that Ukraine currently cannot achieve. This situation highlights the challenges of incorporating Western military hardware into a conflict characterized by attrition and the need for improvisation.

Furthermore, the incident underscores the imbalance in the air war. Russia’s superior numbers in aircraft and missiles enable it to exert continuous pressure, utilizing glide bombs and drones that Ukrainian jets must defend against. The F-16’s mission, whether to intercept these threats or to target Russian positions, is crucial yet fraught with danger.

Without strong air defenses to counter S-400 systems or aircraft capable of challenging MiG-31s, Ukrainian pilots find themselves at a persistent disadvantage. Although Western training programs are thorough, they cannot completely equip pilots for an environment where quick decision-making is crucial for survival.

From a technical perspective, the survivability of the F-16 relies heavily on its countermeasures. Jamming pods and chaff dispensers can interfere with radar-guided missiles, but the latest S-400 models employ sophisticated signal processing to counter these strategies. The R-37M’s active homing capability makes it particularly difficult to evade, especially at extended ranges.

Additionally, Ukraine’s F-16s may be missing upgrades such as AESA radars, which improve situational awareness. These deficiencies highlight the broader challenge of modernizing a legacy platform for contemporary warfare, where electronic warfare and precision-guided munitions are prevalent.

Looking forward, this incident could lead Ukraine to adjust its strategy. If the S-400 was indeed responsible, Ukraine may focus on targeting Russian radar installations using drones or missiles like the Storm Shadow.

Conversely, if the R-37M was the cause, Ukraine might seek longer-range air-to-air missiles or enhance coordination with NATO surveillance resources. Regardless of the specifics, this loss emphasizes the necessity for a comprehensive strategy that integrates advanced aircraft with the necessary support infrastructure. For Russia, this event underscores the effectiveness of its layered defense systems, likely prompting further investment in advanced systems like the S-500, which offers even greater range and accuracy.

The downing of a Ukrainian F-16 represents more than just a single loss; it encapsulates a conflict where technology, tactics, and resilience intersect. Russia’s capability to deploy systems like the S-400 and R-37M illustrates its adaptation to emerging challenges, even as it navigates its own limitations.

For Ukraine, this incident serves as a stark reminder that possessing advanced aircraft is insufficient to change the course of the conflict; they also need support, training, and time, all of which are limited resources. This event underscores a harsh reality: in contemporary warfare, no military asset is invulnerable, and every advantage can quickly diminish.

As both parties continue to refine their tactics, the aerial conflict is expected to become increasingly intricate, prompting a crucial question: can Ukraine and its allies swiftly adjust to counter Russia’s advancing defenses, or will setbacks like this dictate the trajectory of the next stage of the conflict?