Latest Articles for Physics

Molecular spin systems are crucial for advancements in quantum technologies.

Exploring new waveguide designs to reduce energy loss in phononic systems.

This study examines how liquid nano-threads respond to disturbances and thermal movements.

Exploring how voltage affects soap film bridges and their behavior.

Examining how elements change under 200 to 300 GPa pressure.

Researchers improve quantum communication by simulating Gaussian channels using quantum teleportation.

Research reveals unique properties of twisted bilayer graphene and its potential applications.

Research highlights energy dynamics of electrons in plasma for improved beam quality.

This article discusses how dark matter halos can reveal insights about gravity.

This article discusses using tensor decomposition to improve PINNs for solving complex equations.

This article discusses a new approach to producing polarized electron beams using a double-layer target.

Integrating uncertainty quantification in DeepONet enhances predictions in complex physical systems.

Analyzing temperature jumps and energy transfer in gases with multiple atoms.

Researchers connect semiconductor lasers to create unique light patterns.

Investigating the iron-magnetite interface reveals insights for material improvements.

Exploring the significance of the Kac-Weyl character identity in mathematics and physics.

A look at how electromagnetic waves interact with obstacles and their significance.

Skyrmions are stable magnetic structures that offer potential for advanced technologies.

This article examines how asymmetrical confinement affects Brownian particle movement.

Study of rod-like particles reveals important phase behavior under varying conditions.

Researchers are pushing laser technology limits using superradiance for improved stability.

A new neural network, STAResNet, offers improved solutions for electromagnetic field predictions.

Introducing character complexity to improve quantum circuit analysis and algorithm design.

An in-depth look at how relativistic effects influence atomic polarizability in main-group elements.

Examining the role of mass diffusion and gravity in Rayleigh-Taylor instability.

Research highlights intriguing magnetic behaviors in Cs Cu SnF and Rb Cu SnF.

Exploring harmonic functions and their measures in Hadamard manifolds.

Study explores spin current dynamics in metal-altermagnet interfaces.

A look at the Hall effect and its significance in organic semiconductors.

Examining how helium escapes from water reveals unique gas behavior.

Research reveals new methods to control superconductivity in bilayer graphene.

Examining limits on parameters in effective field theories and their implications.

Exploring the phases and electron interactions in ABC graphene and their role in superconductivity.

Explore how Krylov complexity helps study chaos in quantum systems.

Research reveals behavior of particles in hot, dense nuclear matter.

Research highlights the unique behavior of layered PtSe in electronics.

Learn how gravitational waves reveal secrets of the cosmos.

Exploring the links between van Hove singularities and exceptional points in physics.

A look into integrable systems and their importance across various fields.

A look into semilinear parabolic problems and their implications in various fields.