Latest Articles for Physics

Researchers successfully cool fermionic calcium monodeuteride using laser techniques.

Scientists probe discrete symmetries using positronium to explain matter-antimatter imbalance.

A study on how dark matter and dark energy interact through scalar fields.

A look into hyperbolic surfaces and their applications in mathematics and physics.

New techniques improve simulations of plasma wakefield acceleration for better particle control.

Researchers investigate partial resetting and its effects on system behavior.

This article discusses strategies to control harmonic oscillators while minimizing energy use.

Lie algebras are essential in understanding symmetry and transformations in various fields.

This article discusses improvements in self-interaction correction methods within density-functional theory.

Learn how excited states impact materials and reactions.

Research advances the understanding of quantum spin liquids and Majorana fermions using the spin Seebeck effect.

Researchers improve data analysis in high energy physics with diffusion models.

This research unveils the behavior of ferroelectric superlattices under varying temperatures.

Exploring the properties and applications of biharmonic and biconservative submanifolds in mathematics.

Examining the Stokes operator's impact on fluid flow in various domains.

Examining singularities and their implications in the universe's fabric.

This study uses machine learning to improve understanding of neutron star equations of state.

Exploring how resetting one variable affects particle behavior in dynamic systems.

Research reveals insights on NV centers and their charge cycling under different light conditions.

Investigating LaNiO’s unique properties and its potential for superconductivity.

A look into how particle interactions shape material properties through defects.

This article examines topological defects, specifically solitons, and their impact on material properties.

A new algorithm improves accuracy in simulating particle movement in fluids.

DMG4 enhances simulation of Dark Matter production, aiding scientific research.

Research investigates the combination of nematicity and superconductivity in materials.

Exploring the Ashtekar variables in General Relativity and their impact on quantum gravity.

A guide to balance laws and their applications in different disciplines.

A new method simplifies complex multiscale problems using gradient descent.

A new method improves solving complex equations using machine learning.

Examining the relationship between entanglement dynamics and classical chaos in quantum many-body systems.

New methods enhance preparation and measurement of polar molecules for scientific applications.

This article explores how spinning particle beams improve stability in accelerators.

Explore the structure and study of manifolds and foliations in mathematics.

An overview of how gases mix, move, and affect our daily lives.

A comprehensive look at spectral inclusion sets in mathematical operators.

A look at InCa4D code for particle movement in capillaries.

Examining how active particles cluster and evolve after disturbances.

A look into quasi-local mass and its significance in gravitational systems.

A new method enhances data analysis in high energy physics using self-supervised learning.

Exploring the links between mass, energy, and information in science.