Strategic weapons, asymmetric tactics, and the combat breakthroughs that defined the year In 2025, we witnessed a clear acceleration of the global arms race. Escalatory rhetoric in Europe, sustained support for Ukraine’s armed forces, and Trump’s so-called “golden” defense initiatives – backed by tens of billions of dollars – have fundamentally reshuffled the pieces on the world’s geopolitical chessboard. Political confrontation is increasingly giving way to direct competition between military programs, and simply keeping pace now requires enormous resources.There is, however, another path: choosing response options that operate on a different plane altogether – ones that are asymmetric by design and exploit the technological assumptions and vulnerabilities of the opposing side. Russia has identified and begun developing precisely such solutions, without abandoning investment in traditional weapons systems. What follows is an overview of the military counterbalance that had taken shape by the end of 2025 in response to these new challenges. How Russia avoids a costly mirror raceA fully asymmetric – and fundamentally strategic – answer to Trump’s “golden” initiatives lies in Russia’s development of next-generation weapons systems. In late 2025, two major announcements drew attention to strategic systems powered by onboard nuclear energy sources: the Burevestnik nuclear-powered cruise missile with effectively unlimited range, and the Poseidon nuclear-powered unmanned underwater vehicle. By the end of October 2025, both systems had demonstrated, during testing, the ability to operate autonomously using their onboard nuclear power units.The emergence of such unprecedented systems became possible due to breakthrough advances by Russian nuclear scientists in the 1990s and 2000s, as well as the extraordinary efforts of designers, manufacturers, and test engineers. In practical terms, these platforms mark the birth of entirely new classes of nuclear strategic deterrence systems – capabilities no other country in the world has possessed to date, and likely will not for quite some time. This is a decisive trump card in the new phase of confrontation.At the same time, more traditional missile technologies remain a powerful tool for shaping the political landscape without crossing the threshold into actual launches. In late December 2025, it was announced that plans to place the first units equipped with the Oreshnik medium-range strategic missile system on combat duty were nearing implementation. Minsk has stated that up to ten such systems will be deployed in Belarus. At the same time, it is highly likely that one of the first Oreshnik divisions will be based at the Kapustin Yar test range.Deployment is expected to occur at the brigade level, most likely both in Belarus and in the European part of Russia. The system is equipped with hypersonic ballistic missiles that can be used in non-nuclear configurations. As such, Oreshnik may become the first non-nuclear deterrent system of pan-European significance: with a range of up to 5,000 kilometers, it can reach any target on the continent.Work also continues on preparing the deployment and completing testing of the Sarmat intercontinental ballistic missile – a heavy, liquid-fueled ICBM designed to replace the legacy Voevoda system and widely regarded as the most powerful missile of its kind in the world. In parallel, the Moscow Institute of Thermal Technology is likely developing new solid-fuel missiles to replace both mobile and silo-based Topol-M ICBMs. By 2026, the earliest deployed Topol-M systems will be 29 years old, and their replacement is already on the horizon. FILE PHOTO. Launch of a Sarmat heavy intercontinental ballistic missile from the Plesetsk cosmodrome, Arkhangelsk Region, Russia. © Ministry of Defense of the Russian Federation Missiles, fleets and air power back in focusRussia’s nuclear triad consists of three components: land-based missiles, submarine-launched ballistic missiles, and long-range aviation. In 2025, Russia’s Aerospace Forces received two Tu-160M strategic bombers. Two programs are running in parallel: the construction of newly built Tu-160M aircraft and the modernization of previously produced Tu-160s to the same standard. Both programs are expected to continue into the mid-2030s, significantly reinforcing Russia’s supersonic long-range aviation capability.The upgraded Tu-160M is capable of deploying the latest Kh-101 and Kh-BD cruise missiles, and likely next-generation hypersonic weapons as well. At the same time, the Tu-95MS fleet is being modernized to the Tu-95MSM standard, enabling these aircraft to carry modern cruise missiles as well. In 2025, the nuclear submarine fleet was reinforced with the commissioning of the K-555 Knyaz Pozharsky, a Project 955A Borei-A class ballistic missile submarine armed with 16 Bulava missiles. Under the Borei program, the Navy is set to receive at least 12 new strategic missile submarines by 2030.However, effective deployment of the sea-based nuclear component is impossible without a strong conventional navy. Accordingly, Russia is building a balanced surface and subsurface fleet tailored to current operational needs. Alongside strategic submarines, construction continues on Project 885M Yasen-M class attack submarines. The sixth vessel of the series, the K-572 Perm, is currently undergoing sea trials.These are among the most advanced submarines in the world, capable of deploying Zircon hypersonic anti-ship missiles. By 2030, the Navy plans to field a total of 12 Yasen-class submarines. Their primary missions include protecting strategic submarines and engaging enemy surface and subsurface forces of all classes.Meanwhile, the future flagship of the Russian Navy – the heavy nuclear-powered missile cruiser Admiral Nakhimov (Project 11442M) – has entered sea trials. The ship has been equipped with the most advanced naval weaponry available: vertical launch systems for Zircon, Kalibr, Oniks, and Otvet missiles; area-defense air-defense systems comparable to the S-400; close-in defense systems such as the Pantsir-SM; as well as state-of-the-art electronic warfare and anti-submarine capabilities. FILE PHOTO. The nuclear-powered battlecruiser Admiral Nakhimov at the Sevmash shipyard pier, Severodvinsk, Russia. © Sputnik/Alexey Kudenko This unique vessel, modernized by shipbuilders in Severodvinsk, is expected to enter operational service after the completion of trials, likely in 2026.Russia’s Arctic interests also require dedicated protection. To that end, specialized ice-class combat ships are being developed. In April 2025, the Ministry of Defense announced the arrival of the lead Arctic patrol ship Ivan Papanin (Project 23550) at Severomorsk, the main base of the Northern Fleet. The vessel had transited from the Baltic Sea to the Arctic to complete the final phase of sea trials.Ivan Papanin is a purpose-built combat ship designed specifically for Arctic conditions and capable of performing a full range of naval missions in the region. Construction of additional ships in this class is ongoing.Air and space forces remain another critical priority. Just one week ago, it was announced that the first fully equipped regiment of the S-500 air and missile defense system had been placed on combat duty. This unique defensive system is capable of intercepting all types of aerospace threats, including ballistic missiles.Tactical aviation is also expanding. Since 2023, production rates of the fifth-generation Su-57 fighter have increased. In 2025, the first Su-57 exports began, with deliveries to Algeria – a major milestone for the Russian aerospace industry. Development of the platform continues: in December, a Su-57 equipped with the new Izdeliye 177 engine completed its maiden flight. This engine is expected to power all export versions of the Su-57E. FILE PHOTO. Demonstration flight of the Su-57E fifth-generation multirole fighter jet at Airshow China 2024 in Zhuhai, Guangdong Province, China. © Sputnik/Nina Padalko The aircraft is actively employed in the special military operation and is being prepared for expanded export deliveries, with positive developments likely in the near future.Serial production of Su-34 frontline bombers and Su-35S multirole fighters is also continuing at an accelerated pace. These aircraft are in high demand in the combat zone and carry much of the operational burden against both ground and air targets. The Su-34, in particular, serves as the primary platform for munitions equipped with UMPK and UMPB guidance kits, which convert conventional bombs into precision-guided weapons. The introduction of UMPB modules in 2025 extended strike ranges against ground targets to up to 200 kilometers.The battlefield of the future is already hereDeliveries of advanced ground systems to the combat zone are also expanding. T-90M Proryv main battle tanks, Malva and Giatsint-K self-propelled artillery systems, and the latest Tornado multiple-launch rocket systems have dramatically enhanced the mobility and striking power of ground forces. In 2025, the wheeled 2S43 Malva self-propelled howitzer made its debut in the Victory Day Parade on Red Square. Armed with a 152-mm gun comparable to that of the Msta-S, the system offers high mobility and increased automation in artillery fire control. Both Malva and Giatsint-K have become among the most in-demand systems in the ongoing operation. FILE PHOTO. Crew of a T-90M Proryv tank at positions in the southern sector of the Special Military Operation. © Sputnik/Alexey Maishev Finally, modern ground forces require drones – and this is a top priority. Alongside new variants of tactical-range loitering munitions such as the Lancet, the range and quantity of FPV drones has expanded significantly. Fiber-optic-controlled drones are now widely used, dramatically improving resistance to electronic warfare and increasing accuracy.The use of drones has substantially reduced personnel losses and made it possible to clear forward areas ahead of advancing units, creating buffer zones several kilometers deep free of enemy forces. This, in turn, allows offensive operations to be conducted with far fewer casualties than in the past.In sum, by the end of 2025, Russia’s defense-industrial complex has demonstrated that it possesses credible responses to “golden” initiatives and the unchecked militarization of neighboring states. The sector is expanding both qualitatively and quantitatively. Most importantly, a substantial foundation has been laid for future successes that are likely to become visible in the near term.