Latest Articles for Physics

Exploring T-duality and zero-point length in the cosmos.

Researchers study time-varying structures to enhance light emissions.

This study investigates movement behaviors and their implications in various fields.

A study of particle behavior in fluids under thermodynamic principles.

Examining Hamiltonian diffeomorphisms and their impact on surface structures.

Study reveals how droplets interact through chemical signals and fluid movements.

Exploring the nature and implications of quantum entanglement in modern science.

Researchers study how light interacts with fibers, revealing unique properties.

Explore the fascinating behavior of vortices in superfluids within optical lattices.

Study explores how ocean activity affects sensitive CUORE detectors in Italy.

A look into how materials react under pressure using mathematical approaches.

Explore the complex interactions and behaviors of pulse-coupled oscillators.

A look at the Toda lattice and its significance in various fields.

Gravitational waves reveal insights into the universe's most violent events.

Research delves into magnetization behavior in various dimensions and models.

Exploring the interaction of curves with scalar quantities and their movement.

Learn how photon traps confine light in nonlinear electrodynamics.

Investigating the behavior of self-propelled particles in quantum mechanics.

This article examines how student expectations shape their lab experiences and learning.

Analyzing stability changes in fractional differential equations with delays for real-world applications.

Recent research reveals new magnon modes in skyrmion lattices, paving the way for advanced technologies.

Researchers manipulate electron spins in quantum dots to improve quantum computing technologies.

Superoscillations reveal potential connections in quantum theory and gravity applications.

Exploring the role of quantum computers in solving the heat equation efficiently.

A look into how thin films behave under various forces.

This article examines particle movement in confined systems and its implications.

Examining stability, causality, and fluid behavior in extreme conditions.

This study uses Neural Operators to analyze relationships in scattering amplitudes.

Exploring the balance between coherence and distinguishability in quantum systems.

Discover the significance of Blaschke's theorem in convex shapes and their interactions.

This study investigates how fractional damping influences Helmholtz oscillator behavior.

A look into phases of universe expansion and string theory's role.

Researchers use machine learning for efficient parton distribution function calculations.

A look at how the HHO method improves material behavior analysis.

New designs improve optical traps for manipulating tiny particles.

Examining how particle shape influences gas properties and interactions.

Discover the potential of waved-brim flat-top hat bands in advanced electronics.

Discover the unique concept of hyperrings and their applications across various fields.

Study of how forces influence the movement of dense liquids.

Examining wave behavior in unique materials for technological applications.