The Age of Strike Carrier Is Over

The Age of Strike Carrier Is Over

Aircraft carriers have a huge role in future wars, but the retooling of their aircraft and their operational concepts must begin now.

by LT X

Ultimately, the F-35 has a huge role to play in a reconfigured carrier air wing. Without it, the U.S. Navy will have no answer to the range of proliferating fifth generation fighters it would face in the Barents, Baltic, or China Seas. Joint Strike Fighter’s use is not bombing the Senkakus or trying to break into mainland China’s air defense network. Instead, only the F-35, to include or perhaps even feature the F-35B flown off LHDs and LHAs, can provide the protection of U.S. light forces and the carrier itself with an aircraft capable enough to survive in a modern air war. Forward distribution of the F-35 in support of U.S. light forces will provide a critical capability to those ships operating at the far reaches of U.S. sea control when they confront the J-20 and Su-35, armed with large numbers of long-range anti-ship missiles.

Finally, naval air must expand the capabilities of the legacy and Super Hornet variants of the FA-18 with software upgrades and improved radars and sensors, to help electronics warfare and battlespace awareness functions on the aging airframes to keep pace with F-35. The F-35’s stealth will not be decisive in future conflicts. The frequency agility of modern air defense sensors is just too good. Only the survivability and lethality of the weapons it carries will keep these airframes lethal into the future. Hornets must maintain their capability in the areas of fleet air defense and anti-surface warfare by a refresh of the aircraft’s sensors and systems. This is not to preclude F-35. Without the Joint Strike Fighter, the only fifth generation fighter available, American carrier air forces will be obsolescent by the end of the decade. However, the Hornets will also have to operate in the same environments, and need to be configured to do so.

Conclusion: 

American naval forces are not a tool for strategic strikes. Instead, they should be used operationally, to provide strategic affects. A great power war will require progressive sea control, as attrition dominates seagoing forces on both sides. At some point, one side or the other will alone maintain the capability to operate in the contested theater. Naval aviation should use its striking capability to advance this attrition-based operational concept as quickly as possible by massing its striking power quickly against targets. Only by eliminating enemy platforms and blinding adversary ISR assets will U.S. forces survive.

In order to do this effectively, U.S. naval air forces must support distributed forces.  The can do so by coordinating with large-deck amphibious shipping to distribute their own lethality, providing defensive counter-air coverage and situational awareness to surface action groups operating on the front line of American naval power. This will free U.S. carrier aviation for anti-surface warfare and local air superiority.

The MV-22 is the great unrecognized platform with almost limitless potential for operational flexibility. With increased sensor loads and weapons, the tiltrotor can deliver long-endurance, low-altitude ASW and high-altitude situational awareness if properly configured. Such sea control capabilities would pay huge dividends in future naval combat.

At its base, this work is about naval aviation in an era of contested sea control. This era will require airborne forces to re-examine the assumptions of the past six decades of naval aviation, retooling the air wing for maritime strike. This will require radically different magazine selections on the carrier, likely some new weapons, including higher-capability anti-ship weapons, and a total retooling of air wing certification and training regimens. Aircraft carriers have a huge role in future wars, but the retooling of their aircraft and their operational concepts must begin now.

LT X is an officer in the United States Navy. Feedback should be directed to [email protected] and will be forwarded to the author.

This first appeared on the CIMSEC website here