Latest Articles for Chaos Theory

Exploring ergodic endomorphisms and their significance in mathematics.

Examining how slow evolution affects information scrambling in quantum systems.

Explore how random time steps improve solutions to ordinary differential equations.

Examining how energy loss influences behavior in dynamic fractional systems.

This study explores how non-linearity affects chaotic behavior in the kicked top model.

Exploring shrimp-shaped domains in dissipative asymmetric kicked rotor maps.

A look at the complex behaviors of the Thomas Attractor through a single control parameter.

Exploring chaotic behavior in the Ikeda map through dynamical systems.

Shearless curves help organize particle movement in chaotic systems.

Research on fractional differential equations reveals new insights into dynamic systems.

Exploring the potential of memristors in chaotic behavior for advanced applications.

Exploring the Burgers equation's role in fluid dynamics and chaotic behavior.

Examining particle movement in complex systems with transport barriers.

This article explores the behavior of charged particles in a Magnetic Maze.

Exploring correlations and dynamics in chaotic systems with neutral centers.

A look into chaotic behavior and its mathematical models.

Examining periodic points reveals stability within chaotic dynamical systems.

New methods improve Lyapunov exponent calculations, aiding chaos analysis.

A complex version of the logistic map incorporates fractional order for better modeling.

This study reveals the complex dynamics of kicked tops under chaotic conditions.

Exploring chaotic behavior in fluid dynamics through Taylor-Couette flow findings.

Exploring nonequilibrium behaviors in quantum systems reveals complex dynamics and thermalization processes.

This article examines how linked oscillators can lead to unexpected extreme events.

A look into the behaviors of two key oscillators in physics.

A look at how entropy links classical motion and quantum behavior.

A look at the kicked rotator model and its implications for understanding chaotic systems.

This article examines how Liénard oscillators reveal extreme events in nature and technology.

Researchers improve predictions of chaotic systems using group convolutions.

Explore the intriguing world of quantum scars and ergodicity.

A look into how chaos affects trade and movement in simplified networks.

Scientists use super-resolution to clarify chaotic fluid flows from noisy data.

Exploring how fractional derivatives impact blood production systems.

Exploring how information behaves in quantum systems and the role of chaos.

A look into the arithmetic regularity lemma and its limits.

An accessible overview of unorientable JT gravity and its chaotic nature.

An overview of data assimilation in complex, unpredictable systems.

Exploring how randomness influences heat equations and their patterns.

A look into the fascinating world of interval exchange transformations and their applications.

A look into critical states and their significance in disordered materials.

Explore how chaos and entanglement connect in quantum physics through the kicked top.