Latest Articles for Physics

A novel superconductor found in La Ni O shows potential for high temperature conductivity.

Examining the role of cut locus and geodesics in Finsler geometry.

Researchers investigate high-pressure superconductors for practical applications in energy.

Researchers study unexpected behaviors in nano-resonators and their effects on performance.

Exploring vector fields in irregular spaces and their real-world impacts.

This study examines active ring polymers' behavior in free and confined spaces.

Learn how to estimate scalar curvature using a new intrinsic method.

A deep dive into energy dynamics in gases under shear conditions.

This study presents a method for numerical solutions of the Equal Width Wave equation.

A look into the properties and significance of clique graphs in hexagonal lattices.

A new numerical method simulates liquid crystal reactions to electric fields.

A new method enhances predictions in uncertain systems while managing computational resources.

Study of Bose excitations in plasma through non-Abelian interactions and their implications.

A new method improves solutions for difficult spin systems with quenched disorder.

Research reveals new phase in Haldane model influenced by disorder.

New methods enhance efficiency in simulating complex physical systems.

Frustrated magnets exhibit diverse behaviors due to intricate spin arrangements.

Research reveals new methods for forming triatomic molecules through light interactions.

A look at how systems interact with their environments through agency.

Researchers investigate spin torque oscillators for energy-efficient computing technologies.

A look into active and passive microrheology and their significance.

This study investigates properties of the Monge-Ampère equation in ring-shaped domains.

Study reveals oscillatory behavior in antiferromagnet/superconductor structures.

New methods improve understanding of spin behavior in materials for technology development.

Study of aggregation processes reveals insights into mass distribution and clustering dynamics.

A look at how topology influences electronic properties in materials.

Exploring the KGH equation's implications in quantum mechanics and nonlinear dynamics.

Exploring how chemical microswimmers move in three dimensions and their applications.

Exploring the unique properties and applications of nematic liquid crystals.

A look at how materials respond to changes over time.

A model predicts motion of rigid bodies using images, addressing mass distribution challenges.

A look at how raindrops and liquids deform and break up.

This article examines how fractures form in 2D materials like graphene.

New larger resonators improve performance in sensing applications.

Exploring the connection between superconductivity and altermagnets reveals unique electronic states.

Investigating how Yttrium Carbide's structure influences its superconducting properties.

Recent findings reveal how particle movement rules affect glass transition behavior.

This article examines the impact of birefringence on gravitational wave detection.

Scientists uncover conductive properties of domain walls in lithium niobate crystals.

Discover the significance of Fourier analysis in understanding geometric measures and structures.