Latest Articles for Physics

Exploring how the Hartree-Fock method reveals electron interactions in materials.

Exploring the unique properties and potential applications of long-range Rydberg molecules.

New method enhances measurement of optical fields in three-dimensional space.

Exploring hypergraphs to understand event relationships and causality.

Explore the fascinating shapes that shape our understanding of the universe.

Exploring the link between Toda lattice dynamics and minimal surfaces in mathematics.

This article examines special unitary groups and their significance in quantum mechanics.

A look into the behavior of charged particles in various states of matter.

This research explores how layered magnetic materials respond to external fields.

This study examines how impurities affect electron behavior in graphene with magnetic fields.

Innovative method improves laser cooling efficiency for atomic physics and quantum computing.

Study of analogue black holes reveals key insights about their dynamics and behaviors.

Research reveals unique superconducting properties of twisted bilayer WSe₂, challenging existing theories.

Geometric algebra provides a unified approach to geometry without heavy reliance on coordinates.

New insights into the universe through the moving lens effect and galaxy clusters.

A new approach enhances predictions of dynamic systems by incorporating memory.

A look into the complex behaviors of geometrically frustrated magnets.

Study of groups through matrices and their properties.

Researchers investigate radiation and low-frequency contributions in gravitational wave phenomena.

Examining how twin boundaries influence critical temperature in superconductors.

A study on fluid behavior in channels and its implications.

Researchers enhance qubit measurements in noisy environments for better accuracy.

A detailed look at using the Hamilton-Jacobi method for mechanical systems with constraints.

Researchers are optimizing laser-plasma accelerators using machine learning for better electron beam production.

A look into the complex behaviors of nonlinear lattices and their applications.

Study of Duffing resonators reveals intricate behaviors influenced by varying forces.

This study reveals how floating magnets form organized clusters under various conditions.

Exploring the unique properties of Fe GeTe and its technological implications.

Examining turbulence with a focus on Ekman-Navier-Stokes equations and numerical simulations.

A study on how N2O interacts with xenon and SF6 across different states.

Research reveals new patterns and boundaries of eigenvalue sums in quantum mechanics.

A look into quantum tunneling and its impact on black hole physics.

New methods improve computations for differential equations involving Lie groups in quantum dynamics.

A novel approach using Galerkin-Boltzmann and neural networks to analyze fluid behavior.

An overview of quantum measurements and their impact on particle behavior.

This study examines Chua's and Lorentz circuits using machine learning for understanding neuronal behavior.

Researchers study nitrogen- and silicon-vacancy centers in diamonds for advanced technology.

SOLAX aids in the simulation of complex quantum systems for researchers.

Explore how block encoding enhances quantum algorithms for complex system simulations.

Exploring the behavior of eigenvalues in random matrices through the circular law.