Latest Articles for Initial Conditions

Discover how Dyson Brownian motion enhances our grasp of particle behavior.

Examining how starting states affect the behavior of Kerr nonlinear systems.

This study analyzes the lifespan and behavior of damped wave solutions under various initial conditions.

Exploring non-linear contributions in black hole gravitational wave signals.

Scientists tackle complexities of modified gravity theories using advanced numerical simulations.

Exploring how combustion behaves under various conditions through mathematical modeling.

This study introduces a method to find unknown initial conditions in wave behavior.

New approaches enable efficient simulation of long-range kink interactions in field theories.

An overview of malaria transmission dynamics and modeling approaches.

Magnetic fields shape the behavior of accretion disks around massive objects.

Discover how delayed fractional equations and machine learning reveal insights into complex systems.

Study of soliton gas interactions using a water tank experiment.

Combining deep learning and sparse regression to improve equation discovery from noisy data.

Exploring how bidirectional dispersive equations reveal intricate wave behaviors.

This article explores how initial conditions impact open quantum systems and their dynamics.

This study investigates how black hole merger behavior affects gravitational waves.

A closer look at the Ising model and its implications in material science.

Exploring final states enhances our understanding of cosmic expansion and dynamics.

Examining the smoothness of solutions to -family equations with Gevrey initial conditions.

Exploring the wavefunction and its role in the early universe.

This article examines how initial conditions affect random neural networks' behavior.

Explore key models guiding the study of biological invasion and population dynamics.

A look into how information theory enhances our understanding of disease spread and populations.

A look into how stars form and evolve in various environments.

A study of shock waves and their evolving interfaces in mathematical physics.

Exploring tilted sources in General Relativity and Quadratic Gravity within the Bianchi V model.

This study focuses on how initial setups affect turbulent mixing in fluids.

This study explores smooth solutions to the isotropic Landau equation under broader initial conditions.

A fresh approach improves calculations on the Stiefel manifold for various applications.

A look into how thermalization occurs in quantum mechanics.

Exploring how Fibonacci patterns influence chaotic system behaviors and outcomes.

This article examines particle movement in confined systems and its implications.

This study investigates how fractional damping influences Helmholtz oscillator behavior.

An analysis of two-body losses in particle interactions and their implications.

A clear look at the arrow of time and its implications.

Research into fuzzy dark matter reveals new insights into galaxy formation.

Exploring how opinions evolve and impact society amidst increasing polarization.

A platform that simplifies access to simulation data for astrophysics research.

Exploring phases before inflation in the universe's evolution.

Exploring extreme behaviors in mathematical wave equations related to fluids and plasma.