Latest Articles for Numerical Simulations

A look at the shapes formed by random polynomials and their connections.

Exploring the Composite QDrift-Product approach for efficient quantum system simulations.

A new method for optimal PMU placement improves monitoring in power systems.

Explore how the Gini index helps identify critical points in various systems.

Explore the unique dynamics of hybrid percolation transitions and their implications.

An overview of naked singularities and their interactions with scalar fields.

Research focuses on improving coefficient reconstruction in medical imaging through thermoacoustic methods.

Explore the transition between dripping and jetting in coaxial flow systems.

A look into the implications of Sawada-Kotera and Kaup-Kupershmidt equations on wave phenomena.

Analyzing spacecraft movement around the binary asteroid 2017 YE5.

Researchers use machine learning to forecast rare laser fluctuations.

Exploring how randomness affects movement in Beta random walks.

Gravitational waves reveal key details about neutron star collisions and matter under extreme conditions.

A new method aimed at enhancing quantum state characterization in complex systems.

A new method for finding eigenvalues in quantum systems using limited resources.

New approaches improve understanding of ion movement in complex systems.

New methods enhance particle tracking in complex astrophysical environments.

Scientists are uncovering secrets of the universe through gravitational waves from neutron stars.

This article covers adaptive strategies in finite difference methods for improved accuracy.

This article examines how error correlation impacts composite pulse performance in quantum computing.

A look into the behavior of fluid flow in confined spaces.

An overview of modeling approaches for hepatitis B infection dynamics.

Exploring modern techniques for efficient material distribution in engineering design.

Examining how fluids swirl near surfaces and its engineering implications.

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

Examining how magnetic fields influence fluid movement and heat transfer.

A look at dense celestial pairs and their gravitational wave emissions.

Study how particle movements create complex fractal patterns.

A new method provides upper bounds for reaction rates in chemical networks.

FTJs offer a new way to store information efficiently without constant power.

Learn how state redistribution improves numerical stability in complex simulations.

Studying polarized Proca stars may shed light on dark matter's role in the universe.

A study of two elastic rods and a spring's behavior under various forces.

New mathematical models enhance our view of DNA's intricate shapes.

New methods improve wave scattering analysis in various fields, enhancing technology and science.

A look at how magnetic fields affect eccentric discs in astrophysics.

This study reveals new insights into phase transitions in one-dimensional Riesz gases.

Examining how atmospheric waves affect weather patterns and energy transfer.

This article examines how rumors spread and ways to manage their impact.

A look at improving decision-making through faster value function approximations.