Latest Articles for Physics

An overview of the unrestricted IRF model and its significance in complex systems.

Exploring the inflationary phase of the early universe and its implications.

Explore the role of vertex operator algebras in mathematics and physics.

A look into the study of pseudo knots and their applications.

New methods improve light interaction analysis in complex systems.

A study on using neural networks to prepare Schrödinger cat states efficiently.

This article discusses the challenges of detecting gravitons in strong gravitational fields.

Study reveals insights on light patterns in complex materials.

A new method enhances generative models by integrating physical rules for realistic movement.

Researchers use optical cavities to observe cold atoms with less interference.

A look at methods for analyzing time-varying signals in particle accelerators.

Researchers find effective method for synchronizing Kerr solitons using auxiliary lasers.

Exploring how random walks distribute over time in uniform spaces.

Study of synchronization and swarming in simplified models.

Researchers discover ways to change liquid properties using polarons.

Explore how phonons influence material properties, stability, and interactions.

Explore the dynamics and constraints of nonholonomic systems in mechanical engineering.

This article examines symplectic reduction methods in infinite-dimensional systems.

Explore the importance of completeness in quantum systems and its implications.

A new framework combines machine learning and PDEs for efficient scientific modeling.

Exploring how quantum systems evolve into classical behaviors through interactions and environmental effects.

A new method merges physics and machine learning to address complex mathematical equations.

Study reveals how resetting affects active particle motion in traps.

This article discusses dataset distillation and its importance in various fields.

Exploring how light interacts with matter affects science and technology.

Research sheds light on baryon number and electric charge in high-energy collisions.

Research on FAHCs reveals unique electron arrangements influenced by strong interactions and magnetic fields.

Research sheds light on nitrogen's behavior under intense laser interactions.

Spinners interact and synchronize on a vibrating liquid surface, revealing fascinating behaviors.

Exploring novel measurements of distance in graphs using advanced mathematics and linear algebra.

Research reveals how moving electrons affect light interaction in graphene.

COCA improves simulations by integrating machine learning with physics for better accuracy.

This study explores the unique magnetic behaviors of ErB under varying conditions.

An analysis of Liénard systems and their behavior under quintic conditions.

Examining how rare earth elements influence the electrical properties of Lanthanum.

Exploring the dynamics of complex systems beyond equilibrium using advanced simulation methods.

Exploring how sound waves behave in helium-aerogel systems.

Explore how light affects charge-transfer insulators using advanced X-ray absorption techniques.

Learn how PML improves wave simulation accuracy by minimizing reflections.

Learn how gravitational lensing shapes our view of the universe.