Latest Articles for Physics

Learn how spin waves could transform energy-efficient technology.

A look into plane curves and their intersections, focusing on exceptional sets.

Machine learning transforms heavy-flavor jet tagging in high energy physics at the LHC.

Exploring oscillons and their significance in various physical systems.

Research highlights shape changes in colloidal polycrystals when stressed.

Optical solitons in multimode fibers enhance data transmission capacity and stability.

Examining the connection between black holes and string theory through entropy calculations.

Exploring the connections between algebra and topology through rational homotopy.

Researchers are studying antiferromagnets to improve electronic devices.

Exploring the importance of differential identities in matrix algebra and their applications.

Research reveals how palladium nanocrystals adapt to strain during phase transformations.

Exploring electromagnetic fields in infinite solenoids with time-dependent currents.

The study reveals how active particles' behavior stabilizes over time through mathematical modeling.

A look at how light science is transforming astronomy through advanced technology.

Exploring the magnetic properties of MnPSSe for future spintronic applications.

This article discusses methods for calculating high temperature series expansions for magnetic materials.

Research uncovers how cavitation bubbles react to pressure changes in liquids.

Cosmic shear sheds light on dark matter and cosmic structure through innovative observational techniques.

This article examines the unexpected muon levels in cosmic ray air showers.

Exploring quantum dots' unique properties and their potential in communication and technology.

Study shows how information spreads among active particles in changing environments.

Exploring the link between chaotic dynamics and electrical systems for better designs.

A new laser technique enhances atomic magnetometers for improved magnetic field measurements.

Exploring the interactions and theories behind the Generalized Calogero-Moser system.

A look at how quantum computing aids in nuclear physics research.

This article examines the links between gravity theory and string behavior in simplified spaces.

Exploring the significance of spin and loop models in understanding physical systems.

Researchers study if a key constant of nature varies over time and space.

An overview of bi-Lagrangian structures and their significance in geometry.

A look into moduli spaces and their role in geometry and algebra.

An overview of how electron-phonon coupling affects material properties.

Discover how diagonal operators shape quantum algorithms and their applications.

A look into quantum field theory and the methods used to analyze particle interactions.

Researchers aim to improve predictions of partial differential equations using Neural Operators.

This study explores smooth solutions to the isotropic Landau equation under broader initial conditions.

Researchers enhance material properties through precise light control of phases.

This article explores nodal count and its significance in graph theory.

A look into the Borromean rings and their significance in geometry and physics.

This article discusses a quantum approach to solving complex nonlinear algebraic equations.

This article explores the latest developments in superconductivity research and mixed pairing states.