Latest Articles for Physics

This study explores the behavior of shock waves in compressible fluids over time.

Researchers investigate axions to understand dark matter and the universe's mysteries.

New method improves cooling of trapped ions for quantum computing.

This article introduces a particle-based method for mean field control challenges.

Exploring entanglement changes after sudden splits in quantum systems.

Examining how static and evolving disorder affect wave movement in materials.

MnCrGeO exhibits unique magnetic properties with applications in cooling technologies.

Research uncovers key properties of aluminum monofluoride for cooling and trapping experiments.

A study on how groups move without pressure through attraction and repulsion.

A look into double-mixing CP violation and its implications for matter-antimatter asymmetry.

A look into how jamming affects materials in various systems.

Examining the necessity of hydrogen in superconducting nickelates and its implications.

Examining classical dynamical matrices in the context of Chern-Simons theory and gravity.

A look into Appell and Lauricella functions and their impact on scientific calculations.

Exploring the connection between non-relativistic string theory and Galilean Electrodynamics.

Investigating wave propagation using fractional operators and advanced numerical methods.

Research reveals how stacking affects the electronic properties of NbSe layers.

Discovering shapes that minimize eigenvalues within volume limits.

Investigating critical points in quantum chromodynamics and their significance in understanding matter.

A new quantum algorithm helps calculate scattering matrix elements in chemical reactions.

Exploring galaxy behavior through dark matter and modified physics theories.

A look into the unpredictable behavior of the double pendulum system.

Exploring the long-term behavior of particles in an exclusion process.

A look at how the Half Space Property simplifies geometric understanding.

Explore the significance and applications of Lie colour algebras in mathematics and physics.

Exploring how machine learning can analyze effective field theories in physics.

A look into eigenvalues and their significance in shapes and spaces.

Researchers develop new methods for preparing Bethe states in quantum systems.

An insight into Rough Stochastic Differential Equations and their significance.

This article discusses innovative methods to create complex maximal surfaces.

An overview of the algebra formed by letters a and b.

CREDO project investigates cosmic rays and their relationship with earthquakes using global data.

Future studies of galaxies and waves could reveal more about dark energy and neutrinos.

Study reveals how light affects the electronic states of 1T-VSe material.

Remembering the profound impact of Lars Brink on theoretical physics and education.

A look into the study of simply-connected manifolds and their classification.

Researchers observe unique behavior in two-component superfluid systems.

A look at tensor models and their role in quantum gravity research.

This research sheds light on how charged particles fluctuate under different conditions.

Discover the connection between curves and minimal surfaces in mathematics.