Latest Articles for Physics

Investigating how superconductors change phases in magnetic fields reveals key principles.

New research sheds light on the elusive fifth force and the chameleon field.

Scientists search for dark matter using scalar mediators and top quarks at the LHC.

A look into the properties of degenerate almost complex surfaces in nearly Kähler manifolds.

Research highlights progress in optomechanical systems using soft-clamped membranes for enhanced applications.

An overview of contact manifolds and their essential properties in topology.

A clear look at Fourier series for analyzing functions in various fields.

Examining how electromagnetic energy shifts into kinetic and thermal forms.

Quantum computers offer new ways to simulate complex equations efficiently.

A look into the random movement of particles in fluids.

An accessible look at Dirac operators and their significance on graphs.

New insights on the Macroscopic Zeno Effect reveal innovative light control methods.

Research reveals new insights into superconductivity in field-cooled magnetic materials.

Exploring the intricacies of quantum phase transitions and local fidelity measures.

This study examines how strain influences the properties of monolayer ZnO.

This study presents efficient methods for trapping Ytterbium atoms using lasers.

An exploration of quantum tunneling and its implications in physics.

Study reveals how particles interact in a rotating coaxial cylinder.

A look into the dynamics and stability of cold plasma in various applications.

Explore the role of numerical methods in understanding Lie systems across various fields.

Research reveals new magnetic phases in nickel dihalides, including skyrmions and biskyrmions.

LK-99 could change the future of superconductivity if proven effective.

A study on how particles behave when temporarily tethered to surfaces.

Researchers leverage deep learning to enhance wave equation solutions with GreenONets.

Recent studies show light can change material magnetic properties via spin-phonon coupling.

Examining how temperature affects superconductivity and topological properties in materials.

Exploring how math and physics work together in learning.

Exploring Brownian motion through the lens of quantum mechanics and particle behavior.

New adaptive methods improve accuracy in solving conservation laws.

Exploring how surfactants affect Faraday wave formation in liquids.

Study reveals impact of cross-phase modulation on 2D spectroscopy outcomes.

How negative curvature influences particle movement in quantum systems.

Improved expressions for definite integrals enhance accuracy in various fields.

Researchers aim to achieve superconductivity at high temperatures through Mott localization.

Scientists aim to create and observe domain walls to understand dark energy and matter.

Examining how magnetization influences superconductivity in unique materials.

New techniques improve energy transfer study in antiferromagnetic materials.

A technique that reveals the speed and direction of particles in various processes.

Explore the significance and applications of the Helmholtz Green's function in wave analysis.

Study of contact geometry in energy dissipation across various fields.