Latest Articles for Numerical Simulations

A mathematical model improves the study of waves over swirling fluid flows.

A computer program simulating fluid movement in porous materials for various research fields.

A study on how non-Gaussianities influence galaxy clustering and bias.

A study on how new ideas transform astronomical research through technology and collaboration.

Examining the influence of noise and structured signals in random matrix models.

This study analyzes traveling waves in two-dimensional suspension bridge models to enhance design safety.

Research improves simulations of binary systems, enhancing understanding of gravitational waves.

New method measures position shifts in quasar images caused by gravitational microlensing.

This article explores a local model for studying gas clouds during star formation.

Exploring the dynamics of fluid movement in porous materials and its implications.

Examining air flow transitions at hypersonic speeds and their impact on vehicle safety.

This article examines how Rossby Wave Instability influences dust dynamics in protoplanetary disks.

A closer look at the Ivancevic model for option pricing in finance.

A look into weak and strong acoustic turbulence and their impacts.

New models help design materials that control wave behavior effectively.

Exploring the light emitted from supernovae to learn about massive stars.

A look into the connections between quantum mechanics and black hole properties.

A new approach to analyze reachability in systems influenced by randomness.

A framework for improving analysis of simultaneous A/B tests using shared users.

Discover how ant-inspired methods improve complex problem-solving.

New techniques improve fluid flow understanding in engineering and nature.

Strategies for optimal control in uncertain dynamic systems.

A new AI model improves flow pattern reconstruction from limited data.

TeNPy offers tools for simulating complex quantum systems using tensor networks.

A look into graphs, their properties, and their impact on systems.

Researchers reveal complex behaviors of EuB's resistivity and electronic states.

Exploring local quantum channels and the significance of Gibbs states.

A look into the angles of pulsar radio emissions and their transitions.

Combining quantum and classical methods to improve plasma simulation accuracy and efficiency.

Combining Parareal and neural networks offers a quicker way to solve ODEs.

Examining how averaged dynamics and randomness improve learning models.

Exploring the behavior and implications of rotating turbulence in fluid systems.

This article investigates how particles behave in the Solar Basin over time.

New design enhances TWPA performance using Josephson Junctions for better signal amplification.

A decentralized approach for efficient multi-robot coordination using task graphs.

This article discusses unusual turbulence behaviors observed from active grids in wind tunnels.

A study on how surroundings influence organism aggregation.

Researchers study Mott insulators using advanced wavefunction techniques for better understanding.

Corrected product formulas enhance accuracy in quantum system simulations.

Research into polaritons reveals insights into light and matter interactions.