Latest Articles for Physics

New protocols enhance quantum computing capabilities using innovative techniques and classical optimization.

Researchers study magnetic lumps in ferromagnetic films for potential technology applications.

Scientists study how materials change phases under varying conditions.

New findings reveal unique floating behaviors of glycerol clusters under electric fields.

Examining how noise affects quantum systems, particularly the anharmonic oscillator.

A new approach to the Poisson equation enhances modeling of physical systems.

Neuromorphic computing enhances data filtering in high-energy physics experiments.

Scientists study TaFe 1.14Te 3 for its unique magnetic and electrical properties.

Investigating how self-propelling particles behave in active fluids.

An in-depth look at the center of mass and its geometric implications.

Research combines superfluid helium and microwaves for improved measurements.

An overview of efforts to unify fundamental forces in physics.

Exploring magnetization and parameter estimation in complex systems.

Explore the connections between light's spin and movement in plasmonic metasurfaces.

Researchers improve magnetic field measurement using diamond membranes on 2D materials.

Study reveals how flat particles buckle under pressure at liquid surfaces.

Examining gravitational behavior and symmetry at the universe's edge.

New methods offer efficient solutions for complex mathematical equations with rapid decay.

This method improves fluid flow analysis by reducing computations while maintaining accuracy.

Uranium thin films offer unique properties for diverse technological applications.

A deep dive into complex hyperbolic geometry and its modular group.

Examining new perspectives on linearization with multiple isolated equilibria.

This study examines how light scatters in materials with different properties in various directions.

An overview of weak noise theory and its role in understanding directed polymers.

A study of wave behavior in nonlinear systems, focusing on stability and solutions.

Temperature affects how agents adapt and cooperate in controlling micro-robots.

Research on dual symplectic circuits reveals key insights into classical dynamics.

Study reveals quasi-crystal formation in large, vibrating spherical grains.

Exploring electric charge quantization through electric fields and boundary conditions.

An exploration of measuring quantum entanglement using the concurrence tetrahedron.

An overview of anyons and their role in topological quantum computing.

Research on heavy neutrinos may reveal answers to cosmic mysteries.

Research on ion dynamics in multipole traps reveals insights into cooling techniques.

Investigating how quantum computations can be simulated using classical methods.

A new model improves the simulation of fast electrical phenomena in gases.

Study of sound generated by air motion impacts engineering and environmental science.

This article examines how work function variation affects electron emission in devices.

A deep look into the Rayleigh Conjecture and optimal shapes.

Research highlights measurement accuracy in new compact sensor technology.

A look into Legendrian knots and their classification methods in knot theory.