Latest Articles for Physics

This article examines how magnetic fields influence electron behavior in rhombohedral multilayer graphene.

A look at the role of symmetry in crystals and its practical uses.

This article examines synchronization phenomena in hot rubidium vapor and its implications.

Exploring the links between uniform even subgraphs and magnetic material models.

WOCLCT improves signal analysis across various scientific fields.

New method improves efficiency in simulating complex particle systems.

This study reveals complex behaviors of diffusion as spaces expand.

Investigating the effects of neutron star collisions and potential black hole creation.

Exploring how light affects molecular behavior in optical cavities.

Research on semiconductor-superconductor nanowires offers advances for quantum technology.

Discover the impact of mirrors on optical cavities and their applications in technology.

A novel configuration addresses amplitude issues in spin simulations using optical cavities.

A novel approach refines predictions for materials like Mott insulators using DFPT.

Learn how boundary integral operators improve sound modeling and simulations.

New findings challenge current models of neutron stars and their internal structures.

A look into Kirchhoff's law and its impact on energy interactions.

A look at how the renormalization group transforms our understanding of complex systems.

Examining the role of time-averaged work in quantum annealing reveals complexities in quantum systems.

Researchers use quantum computing to improve plasma simulation methods.

Exploring the Kuramoto model's applications in various fields and its numerical methods.

This article explores the properties and importance of scalar generalized Verma modules in representation theory.

Scientists investigate hidden photon dark matter using innovative experimental techniques.

A study reveals key findings on crystal nucleation in colloidal systems.

Examining how defects affect heat transport in ion crystals.

A new method reduces unwanted micromotion in trapped ion systems for better qubit control.

A look into how gradual fixing impacts system behavior and predictions.

A deep dive into the Neumann boundary value problem in mathematics.

Molecular physics explores molecules' behaviors, offering insights into various scientific fields.

Study reveals charge dynamics in superconducting single-electron transistors.

An overview of magnetic Dirac operators and their role in quantum mechanics.

Explore weak measurements and their impact on quantum observations.

An overview of stability theory, Lyapunov functions, and their applications.

Exploring the role of cubic lattices in quantum states and operations.

This article discusses the Neumann eigenvalue problem and its significance in various fields.

A look at how light behaves when it interacts with reflective materials.

Combining peridynamics and gradient elasticity enhances understanding of dislocations in materials.

Research investigates stability and behavior of bright solitons in fractional diffraction environments.

A look at the role and applications of the longest element in Weyl groups.

A look at the development and importance of the gravitational constant in science.

New hybrid methods improve solutions for complex combinatorial problems using quantum computing.