Latest Articles for Physics

Research explores the interaction of spin-polarized particles and intense laser fields.

Exploring how particles behave in networks influenced by reservoirs and varying densities.

An insightful look into phase transitions in a three-state SOS model.

A look into CSS codes and their role in quantum error correction.

Recent findings reveal how light affects supercurrents in superconductors.

A look at operator learning and the HJ-Net framework for PDEs.

New hierarchical circuits offer deeper insights into quantum behavior and thermalization.

Explore the dynamics of invariant circles using Birkhoff averages and parameterization methods.

Examining how massless scalar fields interact with charged particles in one dimension.

Exploring local modules and their role in braided monoidal 2-categories.

Research reveals unique properties of Dirac nodal line semimetals for sound applications.

A study on eigenfunction localization and its implications in physics and engineering.

Explore the Adaptive pVQD algorithm improving quantum state simulations effectively.

This research explores how complex models may explain baryon asymmetry in the Universe.

A study on determining nonlinear coefficients using boundary measurements in the Schrödinger equation.

Exploring how phase transitions relate to atomic arrangements and elasticity in materials.

New research highlights the potential of multilayer graphene in quantum technologies.

This article explores the relationship between carbonyl bonds and light behavior.

CERN's groundbreaking discovery of the W boson reshaped particle physics and confirmed the standard model.

Exploring the dynamics of light patterns in microresonators using dissipative solitons and breathers.

Research explores how transverse forces impact particle dynamics and sampling in dense liquids.

An overview of how materials change shape under stress and its implications.

A new concept that merges computation and thermodynamics in Turing machines.

Exploring the connection between neural networks and field theories for enhanced insights.

New insights on silica's melting point reveal steady changes under high pressure.

A look at quantum methods to tackle complex eigenvalue challenges.

Researchers use engineered baths to stabilize topological insulators in quantum systems.

Discover how non-local correlations influence communication and cryptography.

Examining the behavior and applications of elastic membranes in various fields.

Investigating how salt affects water’s ability to transmit electric signals.

FeTeSe shows unique electronic properties, revealing insights into superconductivity.

Exploring the process of coagulation and its mathematical and practical implications.

This article examines turbulence behavior in rotating fluids with temperature differences.

Explore the nature of scalar conservation laws and their contractive properties.

Explore how quantum oscillators react to changing conditions and energy loss.

Explore the unique dynamics of hybrid percolation transitions and their implications.

Examining the role of reflection groups in understanding symmetry and shapes in mathematics.

This article explores the role of critical dimensions in phase transitions and their implications.

New methods improve quantum computing by enhancing hardware-efficient ansätze for complex systems.

Research on chiral fluids reveals unique behaviors and properties influencing soft materials.