Latest Articles for Physics

New integrator enhances particle dynamics simulation for thermal transfer equations.

A study of quantum dynamics using master equations to model interactions.

Phosphorene nanoribbons show promise in electronic applications due to unique properties.

A new numerical algorithm improves solutions for Laplace eigenvalue problems in circular sectors.

Exploring how low-energy electrons interact with light at the atomic level.

Study reveals how magnetic phases form in the two-dimensional Hubbard model.

Dive into the connections between geometry and physics in five-dimensional theories.

Examining Yukawa couplings and their significance in quantum gravity.

Exploring the effects of magnetization on Weyl semimetals and their electronic properties.

Learn essential concepts for controlling and stabilizing waves in various fields.

Research reveals insights into granular materials and their behavior when stressed.

Explore the unusual effects of quantum entanglement and its implications.

This article examines how initial stress affects material behavior and energy storage.

An overview of modular forms and their significance in mathematics and science.

Discover how quantum games redefine our understanding of competition and collaboration.

A look into quantum graphs, their structure, coupling, and spectral characteristics.

A new perspective on electrodynamics using tensor fields to enhance interaction understanding.

Using machine learning to model and predict spins in magnetic materials.

Researchers enhance wave absorption using nonlinear characteristics for various applications.

Examining ion interactions with solvent in varying density environments.

A look into quantum computing using continuous variables for advanced simulations.

Research reveals how nonlinear behaviors can protect topological properties in various systems.

Study reveals how tiny particles move in mixtures with active agents.

Examining rapid changes in Ising models and their implications for phase transitions.

Research on stubs enhances our grasp of string interactions.

Learn about affine homogeneous models and their significance in various fields.

Exploring how spin angular momentum in light affects materials and its applications.

Research on altermagnets reveals how light influences their magnetic properties.

A novel technique using atom interferometry seeks precise measurement of a fundamental physics constant.

Altermagnets show unique properties with potential for advanced spintronic applications.

Exploring the dynamics and applications of self-aligning active systems.

This article examines the recent research on bi-rotational Euler flows in four dimensions.

A look into PushTASEP systems and their behaviors using Macdonald polynomials.

New techniques enhance fluid flow simulations for engineers and scientists.

New experiments aim to reveal the secrets of dark matter and dark energy.

Examining the hole argument and its implications for reality and determinism in general relativity.

Exploring how liquid drops behave when they hit surfaces.

A new method improves solving complex equations in multiple dimensions.

A look at how pressure and temperature affect water's different states.

Introducing a straightforward method to determine fluid-crystal coexistence in simulations.