Latest Articles for Physics

A look at how random walks help in understanding complex data changes.

Investigating the unique properties and applications of gapped graphene in technology.

A look into the electrical behavior of layered conductors under various fields.

This study investigates eigenvalue changes in domains with periodic holes.

A look at symmetries and anomalies in linear gravity and their implications.

Scientists aim to find dark matter using muon interactions at CERN.

Explore the impact of the CPT theorem on our comprehension of the universe.

Investigating layering techniques to raise superconducting critical temperatures in materials.

This article explores the combination of fractional operators and their practical applications.

LZ experiment investigates dark matter and rare physical phenomena deep underground.

Explore how laser pulses impact molecular behavior and excited states.

An overview of sheaves and their importance in algebraic geometry.

A look into the behavior of granular materials and their unique properties.

Research on magnons and phonons opens new technology avenues.

This article investigates angle structures and their significance in hyperbolic manifolds.

Combining matter and light for improved quantum computation techniques.

Recent study reveals important properties of doped graphene leads for future electronics.

Research reveals surprising long-range forces between charged surfaces in high salt concentrations.

A look at the significance and applications of Dickman type processes.

Research on higher-order Dirac and Weyl semimetals reveals new properties.

Machine learning is transforming how we study hadronization in high-energy physics.

Discover how Zolotarev rational functions manage values in different domains.

This article examines LaPtSi, its phases, and its superconducting properties.

A look at the latest methods in free energy calculations for improved chemical insights.

Exploring the significance of generalized Cartan geometry in modern physics.

Introducing an efficient method for studying electron behavior in low-temperature plasma.

A look into nonlocal differential operators and their wide-ranging implications.

Examining the behavior of interfaces through complex mathematical models.

Study of run and tumble particles reveals complex movement influenced by environment.

A look into Fourier Analysis and its significance in various fields.

Research explores europium-based compounds for potential technologies in electronics and quantum computing.

Learn how heat moves through materials and the key concepts behind it.

A study on wave propagation through non-uniform materials and its applications.

New research shows quantum heat engines can exceed traditional efficiency limits.

New measurement method maintains entanglement in distant atomic particles.

Study reveals how randomness affects magnetoresistance in graphene under magnetic fields.

Thermodynamics plays a key role in understanding small systems and their behaviors.

Exploring new definitions of entropy beyond classical physics insights.

Examining particle movement in complex systems with transport barriers.

Researchers improve force measurement using levitated dielectric objects and light interactions.