Latest Articles for Physics

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.

An overview of key concepts in many-particle physics and their applications.

Scientists examine how groups of atoms react to laser light to create new light sources.

A look into the behaviors and applications of self-similar shock waves.

Investigation into the properties and applications of transition metal dichalcogenides.

A look at how light interacts with small particles in liquids.

Research reveals how thickness changes superconductivity characteristics in 2H-NbS.

Research on vortex strings reveals insights into symmetry breaking and their influence on physical states.

Exploring random matrices and their significance in complex systems across various fields.

Explore the analysis of trajectories and their applications in various fields.

This article explores spontaneous processes in non-equilibrium systems and their applications.

Exploring how quantum spin chains relate to computation and mathematical properties.

Adaptive stepsize methods enhance Langevin dynamics simulations of particle behavior under random forces.

Exploring the principles and applications of feedback control across various systems.

This paper discusses methods to learn system dynamics using limited and noisy data effectively.

New methods identify and measure spin flow in materials like tungsten and platinum.

Exploring how quantum dots reveal Nagaoka ferromagnetism in materials.

Exploring the significance of irreversible processes in thermodynamics and mechanics.

A new approach combines machine learning and physics for better material analysis.

Researchers propose a novel method for calculating excited states using quantum circuits.

Exploring the relationship between energy, information, and living systems.

Exploring the concept of discrete space-time and its implications on particle behavior.

A look into how light interacts with objects moving at high speeds.