Latest Articles for Physics

Exploring similarities in unpredictability between classical and quantum physics.

This study investigates axions and their impact on the cosmic microwave background.

MAGIC scheme offers improved control in quantum computing with trapped ions.

This article explores how monotone paths interact with Markov chains and their implications.

Exploring the effects of magnetic damping on spin waves and their applications.

Exploring the creation and potential of magnetic metamaterials using ion implantation.

A look into the KdV equation and its implications for wave behavior.

Sobolev inequalities connect function behavior and derivatives across various fields.

A look into how numerical relativity shapes our understanding of gravitational waves.

A look into the dynamics of particle interactions and their implications.

Learn how Brinkman fluids behave under different forces in various environments.

A method to enhance particle searches by minimizing energy costs and time.

This article examines how fermions behave and interact in various systems.

A deep dive into half-space TASEP and its implications in particle systems.

Researchers use machine learning to uncover insights about axions and flavor symmetry.

A new perspective links gravity and quantum aspects through information, addressing major physics puzzles.

Studying how atoms react to light within fullerene structures.

A look into how amorphous solids respond to stress and their structure.

An overview of polytopes, their properties, and applications in various fields.

Researchers investigate hidden particles influencing our universe's structure and behavior.

Examining relationships between geometric shapes and algebraic solutions in mathematics.

A unified method improves prediction of electron interactions in materials.

A look at the Helmholtz equation and Newtonian potential in wave analysis.

Scientists capture rapid molecular changes in real-time using attosecond X-ray techniques.

New methods reveal how light interacts in dense atomic clouds.

Research reveals crucial details about defects in phosphorene affecting electronic applications.

A new method improves solving complex linear equations efficiently.

A look into the unique properties of strange metals and their behavior.

An overview of self-similar differential equations and their applications.

A look into bi-Lagrangian Grassmannians and their significance in geometry and physics.

Explore how ion channels affect current flow and technology advancements.

Explore the fascinating world of knots and their mathematical significance.

Researchers connect particle interactions to geometry, revealing new insights into phase transitions.

Discover how -contact geometry enriches the study of complex systems.

A new action principle enhances understanding of mechanical systems, especially non-holonomic ones.

Learn how coherent states combine properties of classical waves with quantum behaviors.

Explore the behavior and applications of liquid crystals in technology and research.

New methods improve predictions for materials with strong electronic interactions.

Light offers new ways to control magnetism in materials for advanced technology.

A damper offers a solution to misalignment challenges in particle acceleration.