Latest Articles for Physics

Recent studies reveal insights into silicon's structure under high pressure and temperature.

This study looks at how small particles behave during low-speed collisions.

Research on detonations reveals important factors influencing their symmetry and behavior.

Exploring how physical principles shape the biology of living organisms.

A new method enhances differentiation accuracy using Taylor expansions and correction terms.

A look into the principles and challenges of string theory.

This article presents a method for solving nonlocal parabolic problems using Isogeometric Analysis.

Discover a promising approach to solving challenging equations in physics and engineering.

Examining the nature and significance of composite dark matter in the universe.

New techniques enhance studies of electron behavior with attosecond X-ray pulses.

Learn how matrix majorization aids in comparing probabilities across different matrices.

A look into the significance and challenges of Density Functional Theory.

Explore the dense worlds of neutron stars and their complex matter.

Researchers reveal new methods for controlling spin waves in magnetic nanostructures.

Researchers are using sound waves to control electric properties in ferroelectrics.

Study of charge density waves reveals new thermal behaviors in materials.

Recent advancements in studying warm dense matter using Bohm SPH show promising results.

A look into the unique thermodynamic properties of Fermi gases and their implications.

Examining how elastic materials change shape under applied forces.

cuVegas enhances numerical integration efficiency using GPU technology for complex tasks.

A concise overview of associative algebras and their applications in various fields.

A method for detailed signal analysis over time and frequency.

Discussing stable structures like kinks and double-kinks in two-dimensional field models.

Exploring the role of spectral methods and W-systems in solving complex PDEs.

Exploring the links between quantum mechanics and gravity through entanglement.

A model revealing how electrons move in and out of quantum dots.

This article examines how hydrogen influences iron alloys in Earth's core.

Study reveals how thickness and substrate affect NbTi superconducting performance.

Explore how particles move randomly on flat surfaces.

A study on manipulating temperature using Wentzell boundary conditions and Dirichlet control.

New methods enhance study of dark states in materials.

Exploring the properties and shadows of black holes in the universe.

A new method helps scientists predict how particles move over time.

Research explores how pressure alters the electronic structure of heavy-fermion materials.

Exploring how symmetry impacts energy efficiency in thermodynamic systems.

This article explores how gases evolve from polynomial to Gaussian distributions over time.

Using machine learning to simplify scattering amplitudes in high-energy physics.

An overview of space-time multigrid methods and their applications in various fields.

An overview of manifolds and their importance in topology.

Exploring necklace beams and how AI enhances their study.