Multimodal Aeroacoustic Aircraft Based on an Oscillating Resonator: From Laboratory Models to Quantum-Hydrodynamic Propulsion
Multimodal Aeroacoustic Aircraft Based on an Oscillating Resonator: From Laboratory Models to Quantum-Hydrodynamic Propulsion
This paper presents the concept of a universal vehicle utilizing the nonlinear effects of unsteady hydrodynamics. Drawing on the experimentally confirmed effect of a sixfold increase in aerodynamic drag in oscillatory mode (Gerasimov, 2008) and the author's research on thrust vectoring (Kandyba, 2021), the paper proposes a "biomimetic oscillator" model. The device is viewed as a macroscopic analogue of an elementary particle interacting with a superfluid vacuum.
Superfluid Vacuum, UFO, Aerospace engineering, Fluid dynamics, Biomimetics, Space travel, Quantum physics, Mechanoluminescence, Physical cosmology, Innovation, UAP
Superfluid Vacuum, UFO, Aerospace engineering, Fluid dynamics, Biomimetics, Space travel, Quantum physics, Mechanoluminescence, Physical cosmology, Innovation, UAP
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