Latest Articles for Physics

Exploring the connections between gravitational waves and supersymmetry in the early universe.

Examining energy minimizers and their properties in varied regions.

This article discusses modern methods for minimizing energy in engineering systems.

A novel framework improves the study of glasma in heavy-ion collisions.

A new method for approximating functions with singularities, ensuring accuracy and flexibility.

Researching edge currents in small chiral superconductors reveals important properties.

Exploring how light interacts with matter to create high-frequency radiation.

Investigating microlensing reveals secrets about dark matter and cosmic structures.

Y Ru Ge exhibits unique superconducting behaviors and challenges conventional theories.

A look at ill-posedness in dispersive equations and its implications.

LPNets enhance the simulation of Hamiltonian systems, preserving essential properties.

A look into quantum spin systems and the Green's function method for analysis.

Single circuit quantum electrodynamics devices show promise for simulating complex quantum systems.

This study analyzes the lifespan and behavior of damped wave solutions under various initial conditions.

A look into phase transitions and their implications in physics.

Explore how particles move in temperature gradients and its applications.

Painlevé equations offer unique insights in mathematics and physics.

Examining B acklund transformations and their role in discrete geometry and surface study.

Kaniadakis cosmology reshapes our view of the universe without dark energy.

A look at the contributions and influences of physicist Keith Brueckner.

This study examines the behavior of unit balls' volumes under different norms.

An overview of anomalous diffusion and its significance in various fields.

A new approach to solving complex equations using physics-informed DeepONet technology.

Studying mixed quantum-semiclassical systems enhances insights into complex physical phenomena.

Research reveals unexpected heat transfer behavior between gases and solids.

Discover how computation shapes our understanding of reality through Ruliology.

New methods enhance quantum simulations using trapped-ion systems for better accuracy.

This article explores isospectrality and configurational entropy in hadronic physics.

A look at using the Hybrid High-Order method for biharmonic equations.

Explore the uniqueness theorem and its role in electromagnetic problems.

This article examines the behavior of plasmons in layered materials like graphene.

Researchers investigate quantum behaviors of Heisenberg antiferromagnets using honeycomb lattice structures.

Learn how scientists solve complex linear systems in plasma physics research.

Exploring the unique properties and superconductivity of trigonal -PtBi material.

A novel approach to examine strongly correlated electrons and neutrons with simpler tools.

Exploring superluminal effects and localized operations in quantum and classical frameworks.

Investigating singlet and triplet pairings among fermions in optical lattices.

Examining particle behavior in heavy-ion collisions through cluster structure and intrinsic momentum.

Investigate how gravity impacts quantum entanglement between particles.

New insights into the deformed 2D Toda hierarchy shape mathematical physics research.