The U.S. Navy's Ford-class aircraft carriers feature new pathways that were designed to facilitate the movement of modern munitions. The Advanced Weapons Elevators (AWE) employs several advanced technologies, including electromagnetic motors and hydraulic systems, which enables fewer sailors to safely move ordnance from weapons magazines to the flight deck with unparalleled speed and agility.

Why the USS Gerald R. Ford-class Is the Best Aircraft Carrier in the World - The USS Gerald R. Ford (CVN-78), the United States Navy's newest and largest aircraft carrier, is back in port following an extended deployment to the waters of Europe. The nuclear-powered aircraft carrier is the lead vessel of a new class of flattops that will replace the aging Nimitz-class on a one-for-one basis over the coming decades.

Though based on the former carrier, the Ford-class is larger and offers several features that truly make it the best aircraft carrier in service anywhere today. Here are five of the stand-out features of the Ford-class aircraft carriers:

EMALS

CVN-78 was the first aircraft carrier in the world to be equipped with an electromagnetic-powered aircraft launch system (EMALS). It offers numerous advantages over the traditional steam-powered catapults of the Nimitz-class carriers, including more accurate end-speed control, with a smoother acceleration at both high and low speeds.

The system also possesses the necessary energy capacity to support an increased launch envelope and a capability of launching both current and future carrier air wing platforms – from the lightest unmanned aerial vehicles to heavy strike fighters.

Improved Nuclear Reactors

The EMALS wouldn't be possible without the carriers' two upgraded A1B nuclear reactors. In addition to powering systems like the electromagnetic catapult and multifunction radar, the increased generating capacity could be employed in the future to support new ship defenses utilizing directed-energy weapons (DEWs) and other systems.

Though the actual performance is classified, it is estimated that the thermal power output of each A1B will be around 700 MWth, some 25% more than provided by the A4W on the Nimitz-class supercarriers.

Advanced Arresting Gear

EMALS can help get the aircraft in the sky faster, while the Advanced Arresting Gear (AAG) system provides Ford-class ships with the ability to recover both current and projected carrier-based, tailhook-equipped aircraft. As a follow-on system to the Mark-7 system of the Nimitz-class, AAG can also allow for the recovery of a broader range of aircraft and, through its greater control, reduces the fatigue-impact load on the recovered platforms. The AAG architecture also includes built-in test and diagnostic technologies.

The AAG further requires less maintenance and manpower to operate than the legacy arresting system, while it can help increase the sortie rates. It also offers lower energy consumption and a decreased gross ship weight.

Advanced Weapons Elevators

The Ford-class features new pathways that were designed to facilitate the movement of modern munitions. The Advanced Weapons Elevators (AWE) employs several advanced technologies, including electromagnetic motors and hydraulic systems, which enables fewer sailors to safely move ordnance from weapons magazines to the flight deck with unparalleled speed and agility.

Quality of Life Enhancements

The Ford-class carriers were designed to substitute technology for manpower in many activities, thereby reducing the crew size by as much as 20%. As a result of being less manpower-intensive, the carrier will have extra space for a number of quality of life enhancements that include improved berthing compartments, better gyms, and more ergonomic work spaces.