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

Fluidic thrust vectoring and control refer to a suite of aerodynamic techniques that achieve directional control of engine thrust by modulating the flow field through the injection of secondary ...

In pursuit of a multirole mission, the F-35’s designers accepted trade-offs that reduced its stealth performance in exchange for significant improvements elsewhere. The US military has two stealth ...

Fluidic thrust vectoring nozzles represent a promising approach in aerospace propulsion, utilising the controlled injection of secondary flows to manipulate the primary exhaust stream. This innovative ...

Developing a next-generation fighter aircraft is a decades-long endeavor. The evolving nature of technological advancement and real-world needs means that a successful fighter will receive years of ...

In view of the control effects of fluidic thrust vector technology for low-speed aircraft at high altitude/low density and low altitude/high density are studied. The S-A model of FLUENT software is ...