Latest Articles for Bifurcation

Discover how droplets interact with surfaces through contact angle and friction.

Serpentine structures offer flexibility and stability for innovative applications in technology.

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

This article examines how noise and connections shape neuronal activity patterns.

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

Study examines how inverted flags interact with flowing fluids and their energy capture potential.

Exploring chaotic behavior in the Ikeda map through dynamical systems.

Shearless curves help organize particle movement in chaotic systems.

A look into predator-prey relationships and ecological models.

Examining decision-making through logit learning empowers insights into cooperation and competition dynamics.

BIFURC helps medical staff locate veins and arteries quickly in emergencies.

A look at how the Swift-Hohenberg equation reveals patterns in nature.

This article discusses uncertainty analysis in engineering through the FgPC method.

This study examines fluid behavior and wave patterns in curved pipes.

Research reveals how membranes can generate unique sound frequency patterns.

Cells change behavior based on their environment through bifurcation.

Explore the math and science behind plant patterns in deserts.

Explore how circuits behave between chaos and order through simple changes.

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

Bifurcation analysis studies how small changes lead to different system behaviors.

Discover how EOS maps create patterns and attract numbers in a fascinating way.

Discover how fluids move and behave under different conditions.

Exploring how fractional derivatives impact blood production systems.

Explore how opinions change and polarize among individuals in social discussions.

A look at how vibrating strings create sound and change behavior.

Explore how ghost states influence dynamic systems and their behavior.

Discover how non-normal dynamics challenge our view of sudden changes.

Exploring how personal choices on vaccinations impact public health.

A look into how fast-slow systems behave, using the FitzHugh-Nagumo model.

A look into the effects of alpha and delta brain waves on our lives.

Exploring the dynamics of traveling waves in neural networks.

Discover how TRENDy helps scientists understand complex systems in biology and physics.

Discover the fascinating world of coupled oscillators and their surprising behaviors.

Unravel the dynamics behind SNICeroclinic bifurcation in complex systems.

Discover how a bouncing universe challenges traditional cosmic views.

Explore the dynamics of dimer systems and their wave patterns.

Discover the fascinating dynamics of excitable systems and their behaviors.

Discover the dynamics of bistable systems within tree structures and their implications.