Latest Articles for Physics

Quantum computing may transform our understanding of fundamental physics through advanced simulations.

This study reveals novel results about volume and diameter in Riemannian manifolds.

New materials promise better fracture management for various applications.

Examining chaotic behavior through transversal homoclinic points in dynamical systems.

Research reveals how small molecules influence the behavior of nanotubes and nanocages.

An overview of quaternion functions addressing Cousin problems in symmetric domains.

Exploring how neuron models interact within complex systems over time.

Explore the random motion of Brownian particles and their significance in science.

A look into the behavior of fluids and vortex interactions.

Analyzing particle systems with graphons for improved predictions in complex networks.

This article examines wave behavior in a triangular lattice and its significance.

Examining the blend of warped products and Einstein metrics in curved spaces.

A new approach to understanding gravitational angular momentum proposed by researchers.

New techniques improve parameter estimation in partial differential equations for various applications.

A look at how patch dynamics improves multiscale modelling techniques.

A look into how specific operators function with boundary conditions in various applications.

This article examines nonlinear excitations in droplet environments, focusing on stability and dynamics.

Improving quantum computing efficiency through optimized spin qubits in silicon-germanium materials.

Exploring solitary waves, their stability, and the fourth-order nonlinear Schrödinger equation.

Learn how slight adjustments can dramatically alter system behavior across various fields.

This study uncovers how disordered materials behave under pressure.

A look at quantum spin chains and the nested algebraic Bethe Ansatz.

Examining the limits of nonlocal correlations and their implications for secure communication.

Examining the connections between micro and macro states in complex systems.

Researchers develop the synchrowave to manage and maintain traveling water waves effectively.

An overview of fusion categories and their role in mathematics and physics.

New methods for preparing quantum states improve efficiency and reduce resource needs.

This article explains flame behavior using the ZFK mathematical model.

Innovative laser techniques promise faster positron production for research.

This article explores the connections between gravitational and electromagnetic waves.

This article discusses innovative methods for discovering conservation laws in various scientific fields.

A new look at the Ising model reveals surprising thermodynamic properties.

Analyzing how particles move in confined areas reveals important scientific insights.

Exploring phase transitions in quantum systems influenced by infrared radiation.

Exploring the significance and applications of second order -difference equations in mathematics and physics.

Exploring the role of triangulations in understanding Calabi-Yau manifolds.

Exploring the mystery of varying forces in our universe.

Research reveals distinct properties of miassite under magnetic fields.

Explore the relationship between dynamical systems and slow entropy.

New methods improve understanding of molecular interactions and behaviors.