Thrust vectoring—essentially redirecting the plane’s exhaust flow—allows modern fighters to quickly change direction, giving them an edge in close combat. Thrust vectoring nozzles are one of the most ...

The world’s heavy reliance on fossil fuels, especially for transportation, has left a deep mark on both the planet and public health. Burning these fuels releases a flood of greenhouse gases, which ...

Both Honeywell Aerospace and the team of GE Aerospace and Kratos have been awarded contracts to complete development of new designs for small turbofan engines meant to offer low-cost propulsion for ...

At RIAT, the F-22 Raptor launches into a near-vertical climb before pitching over into a controlled power loop using thrust vectoring. The jet appears to pause in the sky, nose high, before rotating ...

GE Aerospace‘s F110-GE-129 engine with the Axisymmetric Vectoring Exhaust Nozzle (AVEN) is to power Shield AI‘s future X-BAT drone fighter jet, according to a Memorandum of Understanding between the ...

During the Cold War, U.S. planners worried that modern fighters might one day be forced to operate from damaged or shortened runways. That fear drove an extraordinary experiment: turning a standard ...

While the World War II era was the first time we saw fighter jet engines take to the sky, there were some earlier operational prototypes. Anselm Franz, an Austrian engineer, designed and fitted one of ...