Latest Articles for Physics

A fresh approach to enhance energy configurations for quantum states involving qudits.

Discover the fascinating properties and applications of hyperbolic geometry.

Exploring the relationship between incompatibility and CP-divisibility in quantum systems.

New insights into electron behavior promise better technology and medical applications.

Explore how memory shapes our view of past and future events.

Study reveals missing Shapiro step in Bi2Te3 junctions, hinting at Majorana modes.

This article presents an efficient method for generating complex shapes in string theory.

Research reveals diverse non-radial solutions in coupled Schrödinger equations, enhancing understanding of complex behaviors.

An overview of topological semimetals and their special properties.

Research reveals how dark matter interacts with crystal structures, providing new detection strategies.

A look into particle physics and new methods for studying fundamental interactions.

Researchers are improving methods to control spin interactions in Ising models through optical techniques.

This article explores a new way to compare solutions in Wasserstein space.

Exploration of pyrochlore magnets and their fascinating magnetic behaviors.

A brief look into pseudodifferential operators and their significance in various fields.

Researchers improve time measurement precision through photon state manipulation.

A new method to study quantum systems' evolution in the presence of noise.

A new method improves speed in solving symmetric eigenvalue problems using Riemannian techniques.

Quantum computing advances analysis of complex systems in condensed matter physics.

Discover how lasers are changing electron acceleration for medicine and research.

An overview of gravitational redshift and its implications in modern physics.

A deep dive into equilibrium systems and their mathematical underpinnings.

An overview of line bundles and their significance in geometry and algebra.

A new framework enhances our grasp of crystallization in nonequilibrium systems.

An insight into superintegrable systems and their algebraic foundations.

A deep look at the LLBar equation and its impact on technology.

Exploring relationships between 3-manifolds, their invariants, and mathematical constructs.

Research on superconducting diode effect promises to advance electronic device efficiency.

Explore how twisting affects elastic filaments' energy storage and everyday applications.

Eigenvalues play a crucial role in understanding systems in math and physics.

Explore the key concepts and applications of random matrix theory in various fields.

New technique enhances muon experiments, enabling real-time data collection.

Researchers investigate how temperature influences structure in layered LiV materials.

Exploring the role of dark energy in the universe's growth.

A new method combines vertical symbolic regression and deep learning for better equation discovery.

Studying local conservation laws in fluid dynamics through numerical methods.

An overview of superstring theory, focusing on time-dependent environments and thermal dynamics.

Combining classical and quantum methods enhances understanding of spin-boson interactions.

Research reveals how flat band materials could lead to higher temperature superconductors.

This article examines how soft materials change shape during growth.