Latest Articles for Physics

Research explores how electron-positron pairs are formed in strong electric fields.

Investigating how ice forms in small volumes of water and its implications.

This article discusses how electronic polarization influences core-level spectroscopy in noble gases.

Researchers explore new interactions between dark and bright modes in photonic structures.

This article explores the nature and implications of line waves in electromagnetic theory.

Explore the complex dynamics of signed graphs through the chip-firing game.

Discover how simple rules create complex behaviors in systems.

Exploring the role of smoothing estimates in Schrödinger and Dirac equations.

A new model improves predictions for systems with multiple interacting agents.

Learn how random growth models describe systems like plants and cities over time.

Scientists investigate unusual properties of heavy fermions and their effects on magnetization.

A look at spin behaviors and interactions using star-square and star-triangle relations.

A new method improves calculations of Van der Waals interactions in materials.

Scientists propose an event-centric model to explain the universe's workings.

A new model connects dark matter and neutrino masses through a scalar field.

Exploring the role of quantum Ricci curvature in understanding gravity's quantum effects.

Research reveals complexities of nucleon structures and interactions with photons.

Exploring the effects of resetting on particle movement in Brownian motion.

Examining the unpredictable nature of nonlinear systems over time.

A classical experiment demonstrates quantum principles using droplets on a vibrating surface.

Layer stacking shapes material strength, flexibility, and interactions with light.

Research on MoS transistors shows promise for quantum computing with spin-valley locking.

A novel approach enhances control over atomic collisions for scientific advancements.

Researchers study how uneven light amplification affects pulse shape and behavior.

Learn how materials shift from flowing to rigid states under stress.

New method using prismatic meshes offers improved accuracy in heat equation solutions.

An overview of sine-Gordon breathers and their intriguing properties.

Investigating modified gravity and its effects on cosmic expansion and dark matter.

Researchers are using bichromatic light to cool and trap lithium atoms effectively.

Scientists investigate the connection between quantum mechanics and classical physics through decoherence and environmental interactions.

Explore the intriguing behavior of synchronized and unsynchronized oscillators.

A study on complex properties of three-dimensional topological orders using Fourier transforms.

A look at how percolation theory explains movement through materials and networks.

Exploring the unique structures and properties of Margulis spacetimes.

Researchers utilize machine learning to improve particle simulations at CERN's Large Hadron Collider.

Examining thermodynamics and topology of charged and uncharged black holes.

Discover the unique properties and applications of skew-orthogonal polynomials.

Examining the connections between fluid motion and geometry through the EPDiff equation.

Investigating sterile neutrinos' role in understanding dark matter interactions.

Study reveals how AC fields and reactions shape particle behavior in electrolytes.