Latest Articles for Physics

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.

This article discusses cooling strategies and work extraction in quantum systems using memory.

Exploring the complexities of a one-dimensional spin model and its implications in physics.

Explore the significance of stationary points in understanding physical systems.

An exploration of tetrahedron instantons in mathematics and physics.

A study on how microscopic particle behavior relates to fluid behavior.

This study examines wave dynamics in the modified Korteweg-de Vries equation with nonzero backgrounds.

Explore the significance and applications of Fourier transforms in various fields.

This article discusses how Lie groups simplify contact mechanics in mechanical systems.

Exploring the evolution of cellular automata with adaptive rules for complex systems.

A new method improves Hamiltonian simulation accuracy in quantum computing.

Researchers analyze fluid behavior theories at extreme speeds to enhance stability understanding.

A look at how quantum geometry influences capacitance in insulators.

Examining regularity theorems and their significance in minimal surfaces and mean curvature flows.

A fresh perspective on spacetime theories challenges traditional views in physics.

Learn how configuration spaces influence geometry, topology, and algebra.

Machine learning enhances data processing efficiency in modern physics experiments.

A concise overview of fundamental particles and forces in the universe.

A method for calculating electric fields from Gaussian charge distributions efficiently.

Investigating the reheating phase following inflation in the early universe.

A look into the connections of mathematics and physics through inter-universal Teichmuller Theory.

A look into wave equations and their behavior in discrete systems.

Exploring how noise affects measurement incompatibility in quantum systems.

Examining heat exchange between tiny particles and the role of cavities.

Study reveals how self-propelling particles create patterns through unique interactions.

Exploring light and matter interactions in quantum optics for future technologies.

Research reveals how pressure influences superconductivity in the material LaNiO.

Exploring the benefits of polychromatic T-matrix for light interaction analysis.

Explore the significance of scalar curvature in geometry and its applications in physics.

Examining how disorder and electron interactions influence relaxation dynamics in materials.

Examining granular materials' flow properties and their importance across various industries.

A method to study interactions in systems of coupled oscillators.

Explore the role of proalgebraic fundamental groups in understanding space and structure.

Learn how acceleration changes the perception of radiation in physics.

A new method enhances density matrix embedding theory for better electron behavior studies.

A look into how particles behave in turbulent flows.