Non-Reciprocal Supratransmission in Mechanical Lattices with Non-Local Feedback Control Interactions
Jack E. Pechac, Michael J. Frazier
Abstract
We numerically investigate the supratransmission phenomenon in an active nonlinear system modeled by the 1D/2D discrete sine-Gordon equation with non-local feedback. While, at a given frequency, the typical passive system exhibits a single amplitude threshold marking the onset of the phenomenon, we show that the inclusion of non-local feedback manifests additional thresholds that depend upon the specific boundary from which supratransmission is stimulated, realizing asymmetric (i.e., non-reciprocal) dynamics. The results illustrate a new means of controlling nonlinear wave propagation and energy transport for, e.g., signal amplification and mechanical logic.
Topics & Concepts
ReciprocalNonlinear systemControl theory (sociology)PhysicsAmplitudeSine waveBoundary (topology)Energy (signal processing)SIGNAL (programming language)PhenomenonMathematicsStatistical physicsClassical mechanicsControl (management)Mathematical analysisComputer scienceQuantum mechanicsProgramming languagePhilosophyArtificial intelligenceLinguisticsVoltageAcoustic Wave Phenomena ResearchNonlinear Photonic SystemsNonlinear Dynamics and Pattern Formation