Latest Articles for Physics

Explore how honeycomb antiferromagnets and magnons could transform technology.

Exploring connections between quantum mechanics and fluid dynamics offers new insights.

Research reveals fascinating interactions between excitons and phonons in layered materials.

Research reveals dynamics of Rydberg states in carbon dioxide.

Scientists create Livermorium, deepening our understanding of superheavy elements.

A new framework enhances analysis of fundamental particles and forces.

Exploring how water droplets mimic quantum particle behavior through diffraction.

Tao's method offers a simple way to maintain symplectic structure in simulations.

This article examines how two-magnon modes affect antiferromagnetic materials.

Researchers analyze how observables change during high energy particle collisions.

Research linking topological field theories with quantum groups and Lie superalgebras.

A look into string amplitudes and their role in theoretical physics.

Explore how boundary criticality affects materials with unique properties.

Examining integral solutions and counting methods for quaternion equations.

This article examines breather gas fission in nonlinear wave systems and its implications.

Researchers are investigating ways to reduce light speed for better quantum technologies.

Examining how information sharing affects energy in relativistic contexts.

A look into the behavior of charged colloidal mixtures and their properties.

Study of electron dynamics in a one-dimensional system with a moving nanoprobe.

This article breaks down integration and its applications in simple terms.

A study linking string theory and space-time through operator product expansions.

This article examines how granular materials behave when stressed, both dry and wet.

New techniques improve predictions in electron scattering by charged particles.

Exploring the impact of randomness in mathematical models of fluids and heat.

Examining the behavior of volume integral operators as shapes vary.

Exploring how distant particle interactions shape material behavior.

New methods enhance the accuracy of solving fractional differential equations.

Exploring the impact of external magnetic fields on magnon flow in two-dimensional materials.

Examining the viscosity of quark-gluon plasma and its implications in high-energy physics.

This study examines how different friction laws affect slip stability.

Exploring 3D gravity models to enhance our grasp of gravity and black holes.

A study on methods for calculating demagnetization fields in magnetic materials.

New technologies enhance X-ray astronomy missions for better cosmic understanding.

NASA's AXIS mission aims to improve X-ray astronomy technology for better cosmic observations.

A study on refined Strichartz estimates for the Schrödinger equation in curved spaces.

Exploring the impact of crossing changes on knot types.

Examining how shapes change over time through curvature analysis.

Examining how active particles behave when consuming chemicals in two distinct regimes.

This article examines how small variations influence superconductors and their behavior.

This article examines how Brownian particles relax back to equilibrium over time.