Lorenz-like systems emerging from an integro-differential trajectory equation of a one-dimensional wave-particle entity
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Publication:6561205
DOI10.1063/5.0076162zbMATH Open1548.37148MaRDI QIDQ6561205
Publication date: 24 June 2024
Published in: Chaos (Search for Journal in Brave)
Integro-partial differential equations (45K05) Dynamical systems in fluid mechanics, oceanography and meteorology (37N10) Particle methods and lattice-gas methods (76M28)
Cites Work
- Title not available (Why is that?)
- Nonlinear dynamics and circuit implementation for a new Lorenz-like attractor
- Hyperchaos generated from the Lorenz chaotic system and its control
- An equation for hyperchaos
- Hyperchaotic attractors from a linearly controlled Lorenz system
- An adaptive chaos synchronization scheme applied to secure communication
- On the dynamics of new 4D Lorenz-type chaos systems
- The existence of homoclinic orbits in a 4D Lorenz-type hyperchaotic system
- Cooperative catalysis and chemical chaos: A chemical model for the Lorenz equations
- Global aspects of the dissipative dynamical systems. I: Statistical identification and fractal properties of the Lorenz chaos.
- A trajectory equation for walking droplets: hydrodynamic pilot-wave theory
- Generating 2n-wing attractors from Lorenz-like systems
- Pilot-wave hydrodynamics in a rotating frame: Exotic orbits
- A simple Lorenz circuit and its radio frequency implementation
- Deterministic Nonperiodic Flow
- A NEW IMPROVED SCHEME OF CHAOTIC MASKING SECURE COMMUNICATION BASED ON LORENZ SYSTEM
- Emergence of superwalking droplets
- Bifurcations and chaos in a Lorenz-like pilot-wave system
- Drops walking on a vibrating bath: towards a hydrodynamic pilot-wave theory
- Faraday pilot-wave dynamics in a circular corral
Related Items (4)
Dynamics, interference effects, and multistability in a Lorenz-like system of a classical wave-particle entity in a periodic potential ⋮ Ultra-chaos in the motion of walking droplet ⋮ Infinite-memory classical wave-particle entities, attractor-driven active particles, and the diffusionless Lorenz equations ⋮ Unpredictable tunneling in a retarded bistable potential
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