Latest Articles for Physics

A new method improves solving complex equations in multiple dimensions.

A look at how pressure and temperature affect water's different states.

Introducing a straightforward method to determine fluid-crystal coexistence in simulations.

Study reveals dynamics of waves and their applications in various fields.

Examining how sudden changes impact the chaotic nature of Lorenz flows.

Examining the role of qubits in advancing quantum technology.

Learn about Riemannian foliations and their impact on geometry and topology.

Exploring how stress and viscosity affect waves in fluids and solids.

A look into the structure and applications of Lie superalgebras in mathematics and physics.

Investigating the impact of noise on phase dynamics using the Allen-Cahn model.

Examining the interplay between chaos and quantum behavior in various systems.

Exploring the stability of quadratic energies and their implications in various fields.

Study reveals how niobium film properties influence microwave losses in superconducting circuits.

A look at how fractional derivatives impact various scientific fields.

Research shows how light alters superconducting materials using metamaterials.

A look into the Pólya-Tchebotarev problem and its significance across various fields.

Introducing a new perspective on events in physics through loop structures.

A novel approach to locate saddle points in magnetic materials for better analysis.

A clear look at how shapes change and adapt in various contexts.

Unraveling the mysteries of black holes through gravitational wave research.

Analyzing the behavior of Ginzburg-Landau fields and their maximum values.

Artificial intelligence enhances the analysis of particle collisions and jets in HEP.

A new method addresses the challenge of high-dimensional equations in physics and engineering.

An overview of Kac-Moody algebras and their significance in various fields.

Exploring the interplay between free electrons and light for future technologies.

A look at how DDFT studies particle behavior in non-equilibrium conditions.

A new method improves how we simulate particle interactions in materials science.

Exploring how gravity affects the travel of light near massive objects.

Surfactants significantly influence the breakup process of liquid threads into droplets.

Exploring the role of symmetries in nonlinear systems and their implications.

This article discusses how surface shape influences pattern behavior in various systems.

A look into the links between quantum field theory and geometry through probability.

An overview of methods for tracking objects in noisy environments.

Examining effective field theory perspectives on gravity and quantum mechanics.

Insights into the behavior of turbulent fluid dynamics and their implications.

A look into the relationship between 2D quantum gravity and matrix models.

A look into integro-differential equations and their impact on real-world systems.

Examining the interactions and behaviors of solitary waves during collisions.

New modeling techniques improve understanding of sound wave interactions with droplets.

This article explores how light particles interact with larger matter through background-induced forces.