Latest Articles for Physics

Exploring the role of cubic lattices in quantum states and operations.

This article discusses the Neumann eigenvalue problem and its significance in various fields.

A look at how light behaves when it interacts with reflective materials.

Combining peridynamics and gradient elasticity enhances understanding of dislocations in materials.

Research investigates stability and behavior of bright solitons in fractional diffraction environments.

A look at the role and applications of the longest element in Weyl groups.

A look at the development and importance of the gravitational constant in science.

New hybrid methods improve solutions for complex combinatorial problems using quantum computing.

New methods improve simulations of electromagnetic wave behavior in complex geometries.

A closer look at ideal anyons and their behavior in Bose liquids.

Research highlights unique behaviors in graphene and WSe combinations.

New detector design aims to improve sensitivity and reduce noise in gravitational wave measurements.

A new method uses neural networks to solve PDEs efficiently while preserving physical laws.

Exploring how classical and quantum mechanics interact in micellar solutions.

Discover the unique properties and applications of Jahn-Teller magnets.

A look at how systems behave under constraints using contraction theory.

Exploring the behavior of spins in magnetic materials and their applications.

Exploring active matter's self-propulsion and chaotic movement patterns.

Understanding optimal transport and Ricci flow in geometry and physics.

Researchers analyze distances in sequences to uncover patterns across various scientific fields.

Examining how particles are bound together through Effective String Theory and related models.

A new approach to the Arrhenius Law examines particle interactions and escape times.

Investigating the complex magnetic behaviors in disordered materials.

Learn how quantum phase estimation and compressed sensing reshape computing.

Researchers find innovative way for sound waves to travel in one direction without scattering.

A fresh approach to nonlinear initial boundary value problems in fluid dynamics.

Exploring the impact of ETW branes on gravity and quantum theories.

Research unveils La Ni O's potential as a high-temperature superconductor under pressure.

Scientists study muons to learn about time dilation and its relation to gravity.

An overview of particle physics, focusing on the Standard Model and key challenges.

This article investigates how living materials move and interact in fluids.

Investigating how active nematics change order and phase behavior.

MoS nanostructures alter their properties with temperature, impacting technology applications.

Exploring how the holographic principle connects quantum mechanics, gravity, and black holes.

A look at extreme positive magnetoresistance and its significance in materials science.

SCALINN combines machine learning and physics for efficient predictions in complex systems.

Discover how defects impact diamond's thermal conductivity and its applications.

Examining the unique behavior of non-Hermitian systems in physics.

A new neural network model improves simulations of surface growth under various noise conditions.

Researching quark-gluon plasma reveals insights into matter at extreme conditions.