Latest Articles for Physics

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.

Exploring the links between entanglement, temperature, and chaotic behavior in quantum systems.

Exploring the limits on how fast quantum systems can change states.

Research shows how altering interactions can stabilize particle systems under various conditions.

This article examines electron pairing interactions and their implications in materials.

New strategies aim to protect quantum computers from cosmic ray disruptions.

Researchers reveal stable configurations of merons in twisted magnetic materials.

Examining isoperimetric problems and their real-world applications in geometry.

An exploration of how detectors function in de Sitter and anti-de Sitter spaces.

This article examines quantum communication via multicore optical fibers and environmental noise challenges.

A look into spinors and their significance in modern physics.

Researchers cool and trap radium ions using a new method from thorium decay.

This article explores how changes in the gravitational constant may affect gravitational waves.

LUXE studies light and particle interactions to explore new physics.

A study of RN-AdS black holes using the Wheeler-DeWitt formalism reveals unique properties.

Recent studies indicate Cu-substituted apatite may conduct electricity without resistance at room temperature.

Cold collisions of alkali atoms reveal new states of matter and quantum interactions.

A look at the relationship between classical and quantum systems through the Weyl-Wigner representation.

Study reveals how materials impact conductivity and resistive behavior.

An overview of dissipative solitons and their significance in nonlinear systems.

A look into the Kauffman bracket skein module and its applications in knot theory.

Research reveals complex behaviors of particles in disordered systems.

A fresh billiards game combining symplectic and tiling elements for unique gameplay.

Erbium compounds can sense temperature changes and control heat using light.

Research focuses on spin decoherence in VOPc@GNR systems for quantum computing advancements.

Exploring recent insights into quantum control strategies and their implications.

Explore how orbifolds shape our understanding of symmetries and defects in physics.

A look at differential operators, their properties, and significance in various fields.