Latest Articles for Physics

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.

Research focuses on scalar bosons and their potential role in understanding new forces.

Learn how decoupling simplifies solving complex evolution equations.

Examining chiral properties in polaritonics using GaAs quantum rings and chiral cavities.

Investigating cold quark matter and its implications for neutron stars.

This method improves sound wave simulation accuracy and efficiency through nodal conservation.

Innovative method combines machine learning and physics for solving differential equations.

Explores quantum decoherence and its impact on quantum mechanics and computing.

Research on dielectrons reveals key insights into matter behavior in extreme conditions.

Exploring Morse-Smale vector fields and their impact on dynamic systems.

Examine the unique Doppler effect in superfluids and supersolids at low temperatures.

This study explores compression techniques for RSD data to enhance cosmological analysis.

Examining how electrostatic patches affect scientific measurements across various experiments.

Exploring unique behaviors in non-Hermitian systems through exceptional points.

A look at how scientists study electron interactions using mathematical methods.

New insights into omega baryon properties and excited states from lattice QCD research.

New findings reveal key insights into particle interactions through strong-phase differences.

Exploring the unique characteristics and implications of pseudo symmetric spacetimes in physics.

Examining wave behavior with diffusion and dispersion in various materials.

Exploring the role of contextuality in quantum physics and its implications for computation.

Exploring the mathematical frameworks for massless particle interactions.

Researchers uncover unexpected properties in defect McKay-Thompson series, linking math and physics.

New method enhances analysis of complex systems through Symplectic Graph Neural Networks.

Explore the unique behaviors of renewable active matter in biological systems.

Exploring the benefits of Two-Way Quantum Computing in enhancing quantum algorithms and measurements.

A look at how random walks help in understanding complex data changes.

Investigating the unique properties and applications of gapped graphene in technology.

A look into the electrical behavior of layered conductors under various fields.

This study investigates eigenvalue changes in domains with periodic holes.

A look at symmetries and anomalies in linear gravity and their implications.

Scientists aim to find dark matter using muon interactions at CERN.

Explore the impact of the CPT theorem on our comprehension of the universe.