Latest Articles for Physics

A look into phase retrieval and its significance across different fields.

Discover how geometry shapes the future of quantum computing and its applications.

Exploring geometric frameworks for understanding time-dependent physical systems.

A look into two-phase flow behavior and its implications in science and engineering.

Researchers reveal new phases in quantum Hall systems using moiré TMD bilayers.

An investigation into how soft balls bounce in thick liquids and their implications.

A new method improves fluid flow and pressure calculations.

A look at how nonequilibrium states impact biological processes and interactions.

Exploring the unique behaviors of self-propelled particles in various states.

A look at wormholes through the lens of Einstein-Cartan theory.

A probe technique allows insights into hard-to-reach thermodynamic systems.

Researchers develop methods to manage qubit movement using magnetic fields.

This article examines cosmic acceleration and its implications through the lens of Lovelock gravity.

New methods improve neutron diffraction studies of magnetic materials at atomic levels.

Exploring the geometric properties of Lagrangian fillings and their applications in various fields.

This article examines how electron interactions affect Landau diamagnetic susceptibility under various conditions.

A look at how time is understood in quantum physics.

A look into discrete weak KAM theory and its insights on dynamical systems.

This study enhances understanding of pseudodifferential operators and their applications in sciences.

A look at thermal quench and its effects on plasma behavior in fusion reactors.

Researchers manipulate light waves using four-wave mixing in rubidium for new insights.

A new method improves understanding of particle correlations in high-energy physics.

A study on how noise impacts dark matter detection using atom interferometers.

Examining how starting states affect the behavior of Kerr nonlinear systems.

Research reveals how controlled randomness impacts wave dynamics in the FPUT lattice.

A new framework simplifies the analysis of superconducting quantum circuits.

New techniques reveal insights into particle interactions and beyond Standard Model physics.

Research measures electric fields in 6H-SiC using light and the Pockels effect.

Researchers develop a model to study ferromagnetism in two-dimensional materials.

Research on how magnetic fields affect droplets and their potential applications.

A look into how Reeb spaces simplify complex functions in mathematics.

A look into quantum mechanics and optimal transport for better science understanding.

An overview of free energy in complex systems like spin glasses.

This article explores the application of finite element methods in four-dimensional analysis.

A study on the Dirac equation and its implications for particle behavior.

This article discusses the numerical inverse scattering transform for the DNLS equation.

This article examines the link between deep learning and renormalization group methods using the Ising model.

Exploring equations that explain material properties and their changes.

Research explores NV centers and magnons to improve quantum information processing.

Examining the cosmological constant and entropy in the universe's expansion.