Latest Articles for Physics

Exploring the properties and potential of helimagnetic materials in technology.

A deep dive into the nature of gravitational energy using the Teleparallel Equivalent of General Relativity.

Study of solutions to nonlinear Schrödinger equations with boundary conditions.

This study examines how energy moves in plasma using simulations.

Examining how magnetic fields influence QCD matter in high-energy collisions.

A look into polarization sets and their role in magnetohydrodynamics.

Modified image sensors enhance low-energy positron beam detection in material science.

Superconductivity advances technology and enables new applications in various fields.

Research reveals how structural changes impact superconductivity in nickel-based pnictides.

Generalized SBP operators enhance numerical modeling of complex problems.

Exploring how gravity affects gas dynamics in astrophysical contexts.

This article presents an efficient method to minimize integral functionals in various fields.

Examining the role of -Hessian equations in various scientific fields.

Research reveals insights into ionization processes with circularly polarized light pulses.

Investigating quantum field theory within discrete causal structures for fresh insights.

Exploring how interfaces affect the electrical properties of two-dimensional materials.

New findings on antiferromagnetic materials and their potential in technology.

This article explores the Higgs field's role in inflation and early Universe theories.

Research improves methods to solve complex nonlinear PDEs effectively.

Investigation of Sr Hf O reveals potential for technology advancements.

Examining how decay values aid in understanding neutrinos and their mass.

CERN investigates antimatter behavior under gravity, aiming to solve the matter-antimatter mystery.

A study assesses AI's role in answering high school physics exam questions.

Study reveals charge density wave behavior in layered materials related to magnetism.

A study examines 178mHf to understand dark matter interactions.

Researchers modify exciton behavior in quantum wells using metallic and graphene layers.

A look into the advancements in cavity magnomechanics and its applications.

Exploring the potential of energy states in technology and materials science.

Enhanced ion traps improve the study of space chemistry.

New laser technique improves positron production and polarization for scientific research.

Research explores neural networks to manage control in quantum systems effectively.

New methods improve calculations of materials with strong electronic interactions.

A look at Bessel and Riesz potentials for function approximation.

This article discusses using mini-batches with Gaussian processes to solve nonlinear PDEs.

Research uncovers local distortions in layered materials affecting their properties.

Exploring the effects of frequency modulation on squeezing in quantum systems.

Study reveals how localized changes impact magnetic network behaviors.

Exploring how temperature and magnetic order affect materials' properties.

Exploring spin waves in synthetic antiferromagnets and their potential tech applications.

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