Latest Articles for Physics

Exploring quasiperiodic functions and their unique level lines in mathematical physics.

A machine learning method enhances the reconstruction of particle events in high-energy physics.

Big Jacobi polynomials have unique properties essential for various mathematical applications.

Exploring the relationships and limits of affine configurations in mathematics.

This article examines the eigenvalue distribution of large antisymmetric random matrices.

This study introduces a new approach to studying metastable states in Ising models.

Research advances in neutron interferometry enhance material analysis at small scales.

New techniques improve solving Helmholtz equations in various fields.

Exploring the significance of ionization potentials in chemistry and physics.

A detailed look into magnetic quadrupole moments and parity-violating polarization in Lutetium.

A look into the role of phase transitions in the universe's evolution.

Research reveals how particles organize themselves using vibrational forces in fluids.

New techniques enhance Eulerian SPH performance in fluid flow analysis.

Rogue waves pose significant risks, causing concern in maritime and scientific fields.

A look at how star systems change over time under gravity.

New methods reveal potential of topological phases for technology and research.

A look at how strain affects bilayer graphene's unique electronic features.

Exploring the use of deep learning in modeling Hamiltonian systems.

Exploring the role and applications of Hermite polynomials across various fields.

Examining heat transfer and sound wave behavior in polyatomic gases.

A new method combines data-driven techniques with physical principles for better modeling.

Exploring recent advancements in topological phases and their implications.

Exploring how time delays affect particle behavior in different potentials.

Researchers develop new methods to better describe quantum damped harmonic oscillators.

Exploring horospheres reveals insights into negatively curved geometry and its implications.

This material exhibits unique properties that may transform technology.

Examining how mechanical strain and magnetic fields affect carbon-based materials.

A look into how memory shapes random movements in the elephant random walk.

A look at how renormalization shaped physics over the decades.

Exploring helicity's role in particle movement and its potential technological applications.

Explore the connections between the Moonshine module and theoretical physics.

This article examines how shape and structure affect falling objects in gravitational fields.

Delving into the complex relationship between light and matter in polaritonic chemistry.

Exploring the properties of BiP triphosphide for electronic devices.

Researching interactions between damped harmonic oscillators with Kerr nonlinearity.

A look at CD-ARPES and its impact on material science.

Research reveals new connections between lattice geometry and the Ising model's critical behavior.

Exploring the complexities of Casimir forces in modern technology.

A new method enhances prediction reliability in complex physical systems.

A clear look at surface tension and its significance in everyday life.