Latest Articles for Physics

A new method enhances data analysis in high energy physics using self-supervised learning.

Exploring the links between mass, energy, and information in science.

Explore the principles of movement, forces, and their real-world applications.

Explore the impact of randomness on complex systems through advanced mathematical models.

This paper discusses a new theory on bosonic extensions of quantum groups and their significance.

Research introduces unbiased phase factor to enhance understanding of QCD behaviors.

A look at higher categories and their significance in modern mathematics.

This paper presents a fresh approach to analyzing neutrino interactions using superscaling.

A new method solves complex quantum problems more efficiently using quantum computers.

This study reviews a spinfoam model incorporating a cosmological constant and its impact on spacetime geometries.

Exploring the significance of kites in understanding particle interactions and energy.

Exploring the complexities of localizing massless photons in quantum mechanics.

This article examines the dynamics of random fields and their geometric implications.

This study reveals insights into ultrafast electronic processes using advanced techniques.

Learn how mixed methods aid in finding lower eigenvalue bounds.

Exploring fractional derivatives and their computational methods for accurate modeling in various fields.

Studying edge singularities and their implications in fermionic interactions.

Researchers are studying toroidal dipoles for advancements in technology and materials.

Explore how driven Potts models reveal synchronization in complex systems under external influences.

A look into how escape rates affect open dynamical systems.

This study examines how light spreads in materials with scattered beads.

This article discusses how symmetry influences optimization and decision-making across various fields.

Researchers study how oscillating mass may affect the equivalence principle and dark matter interactions.

Exploring the fascinating properties and potential applications of topological insulators.

A look into the properties and applications of imaginary chaos in mathematics.

Research on nonlocal symmetries and PDEs leads to significant insights in science.

Researchers demonstrate methods to create mass in quasiparticles using optical gain and loss.

This article explores the Heron variety and its significance in geometry and algebra.

Exploring supersymmetry and scalar sequestering in particle physics.

Research reveals altermagnetic properties of RuF, advancing spintronic applications.

Insights into how gravity affects object motion in unique spacetimes.

New research reveals important details about the Milky Way's gravitational field and dark matter.

A look into the behavior of electrons near atomic nuclei using mathematical models.

Exploring the behavior of magnetic fields in thin layered environments.

An overview of solitons and vortices in discrete and semi-discrete physical systems.

Exploring how particles behave over time in constrained environments.

Examining how energy levels affect particle behavior and symmetries in quantum field theories.

Discover how optical cavities change molecular behaviors and chemical reactions.

An overview of boundary terms and their significance in gravity theories.

This study examines how particles combine and evolve in a defined spatial area.