Latest Articles for Physics

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.

A novel approach improves efficiency in preparing quantum ground states.

Investigating how impurities influence the behavior of fields in the Chern-Simons Higgs Model.

A thin rod lifts granules, revealing complex friction and pressure interactions.

Research on walking droplets reveals insights into classical and quantum physics.

Exploring the effects of time-varying properties in quantum electrodynamics.

Research explores novel superconductivity in transition-metal dichalcogenides through innovative techniques.

Discover the fascinating process of vacuum pair production and its implications.

Study reveals how heat moves in oscillator chains with long-range interactions.

Exploring the dynamics of self-driven particles and their collective behaviors.

A closer look at key concepts in quantum mechanics.

Investigating the complexities of tunneling time in quantum mechanics.

Exploring fractional calculus applications in quantum systems enhances our understanding of complex phenomena.

A deep dive into variable-order diffusion equations and their solution methods.

Researchers enhance machine-learning models for better predictions of complex materials.

Combining physics models and deep learning to improve predictions and manage uncertainty.

Discover how minimal surfaces impact geometry, physics, and engineering.

This experiment investigates how gravity influences light in varying gravitational fields.

A fresh approach improves how scientists study particle collision events.

Discover how researchers study cosmic ray showers in Earth's atmosphere using advanced experiments.

An exploration of how water acts in narrow spaces with hydrophilic surfaces.

Exploring the connection between minimal entanglement and symmetry in particle interactions.