Latest Articles for Chaos Theory

Researchers investigate horizon symmetries to deepen black hole understanding and its connections to chaos and quantum mechanics.

Examining chaotic behavior through transversal homoclinic points in dynamical systems.

This article examines chaotic behavior in neuron models, focusing on the Rulkov neuron.

An overview of partially hyperbolic systems and their complex behaviors.

Overview of JTWPA dynamics and its implications for quantum technology.

A study of chaotic motion in a complex pendulum system.

Anosov vector fields reveal complex behaviors in dynamical systems.

This article examines how particles escape through holes in billiard systems.

Examining how feedback magnetic fields change magnetization dynamics for advanced technologies.

Exploring the role of moving mirrors in quantum mechanics and information dynamics.

A look into how particles behave in chaotic environments using nontwist mappings.

New method improves training of Neural Ordinary Differential Equations for chaotic dynamics.

A look into the chaotic behavior of three-dimensional maps.

Explore the chaotic nature of turbulence and its implications for fluid dynamics.

A look into the behaviors of Van der Pol-Duffing oscillators in various systems.

Exploring chaos in the dissipative quantum kicked top model and its dynamics.

Investigating chaotic behavior in Lifshitz black holes reveals insights into physical systems.

Examine the impact of barriers on chaotic transport in Hamiltonian systems.

Research on energy dynamics reveals chaos in quantum atom-photon systems.

A look into the Optimal Growth Mode and Slowest Decaying Mode in complex systems.

Exploring diverse orbit behaviors in torus maps and their implications in dynamics.

Examining the effects of measurements on entanglement and chaos in quantum systems.

Research reveals unique behaviors in dynamic systems over time.

A look into the Quantum Rabi Model's role in studying quantum chaos and entanglement.

Exploring the behavior of dynamical systems with neutral fixed points and empirical measures.

Exploring the behavior of particles in triangular billiards and their quantum implications.

Exploring the behavior and patterns of wave turbulence in various systems.

A look into quantum chaos, randomness, and entanglement in quantum mechanics.

Study reveals complex behavior in counter-rotating Taylor-Couette flow through period doubling.

Study of energy levels in quantum rotors explains chaotic and ordered behaviors.

Exploring complex dynamics through itineraries and indecomposable continua.

Researchers study stability and blowup solutions in the complex Ginzburg-Landau equation.

Examining metrics and regularity in complex dynamical systems.

Using machine learning to distinguish chaotic and regular behaviors in Hamiltonian systems.

Exploring the dynamics and properties of Anosov diffeomorphisms on complete open surfaces.

Explore how coupled oscillators behave under various conditions and interactions.

Investigating quantum chaos through eigenstate correlations and the partial spectral form factor.

Explore the links between chaos, geometry, and prime numbers.

This article explores quantum chaos via correlation functions and various models.

A look into wandering sets and inner mappings in dynamical systems.