Latest Articles for Physics

Researchers study tensor models and group field theories to unravel quantum gravity.

Research identifies models in six-dimensional supergravity that avoid anomalies.

This article explores how shape intersections function in Riemannian manifolds.

Exploring the connections between semisimple Lie groups and various fields of mathematics and physics.

This article presents a method to improve meteor shower identification accuracy.

An insightful look into the role of composite defects in critical phenomena.

Research examines the impact of force noise on gravitational wave detection.

A study on how particles in a Volterra lattice interact and evolve over time.

A new approach merges machine learning and physics to enhance fluid predictions.

A look into quantum gravity's role in the evolution of the universe.

This article examines gas behavior when interacting with solid surfaces.

Exploring the interplay between colloids and liquid crystals for new material possibilities.

A look into Markov chains and MCMC's role in sampling and optimization.

Explore the mechanisms and significance of phase transitions in materials.

Researchers evaluate AI's role in analyzing astronomical data and its implications.

Differential walk on spheres offers efficient solutions for complex shape analysis.

Combining physics knowledge with data-driven models improves generative modeling performance.

Explore the origins of the Universe and its evolution since the Big Bang.

This article examines pair density modulation in thin flakes of FeTeSe superconductor.

Research reveals unexpected behaviors in disordered superconductors, impacting future technologies.

Study reveals how elasticity affects material states when under pressure.

Research on how light affects energy transfer in molecules offers new insights.

Explore how active particles interact to form unique structures.

This paper discusses the stability and behavior of skyrmioniums in chiral magnets.

Examining the Euler-alignment system and its implications for group dynamics.

Exploring the synergy between quantum and classical thermal machines for future technologies.

Explore the roles of attractors and repellors in the behavior of dynamic systems.

Research focuses on quasiperiodic lattices, localization, and butterfly spectra in non-Hermitian systems.

Exploring the behavior and properties of toroidal attractors in dynamical systems.

A glimpse into Warp Factory's role in warp drive analysis and optimization.

Research sheds light on edge states and higher Hall conductivity in topological materials.

Recent research reveals how light and molecules interact in cavities, leading to new states.

Squeezed light improves the speed and security of quantum random number generators.

A concise overview of the intersection of topology and vector spaces.

Examining how tilted light affects superconductors' plasma waves.

CeRhAs presents intriguing superconducting and magnetic phases affected by temperature and fields.

A new method improves trajectory classification in Hamiltonian systems, enhancing efficiency and accuracy.

Research advances understanding of water clusters and their energy properties using RPA.

Learn how to tackle time-dependent equations using decomposition and composition techniques.

A look into how dissipative systems behave over time and their implications.