Latest Articles for Experimental Research

This study examines the Geometric Binder Cumulant for analyzing polarization in materials.

Examining charm quark effects in B-meson decay processes for better physics insights.

Research sheds light on how charge radii relate to neutron-rich nuclei.

Researchers study superheavy dark matter and right-handed neutrinos to explain cosmic mysteries.

This study reveals how cells maintain movement despite barriers.

A new method improves laser frequency stability for various scientific applications.

Explore how quantum systems switch between states without heat.

Research on atomic arrangements reveals insights into quantum phases and interactions.

This article examines techniques to analyze helium nuclei scattering data.

Examining the Ne Mg reaction's role in neutron generation within stars.

Researchers investigate lepton flavor violating decays in search of new physics beyond the standard model.

Exploring the Aubry-André model and its impact on particle dynamics.

New method uses AI to identify double hypernuclear events in nuclear emulsions.

Exploring unique properties of chiral fermions in Weyl semimetals and related materials.

Examining why matter dominates over antimatter through CP violation in baryons.

Research reveals conditions for Josephson diode effect in superconductors with triplet pairing.

New methods improve our grasp of gluon distributions in particle physics.

Investigating weak decay processes to test particle interactions and explore new physics.

Researchers study helium and semiconductors to find dark matter.

Research sheds light on charmonium behavior in high-energy collisions.

Research into heavy ion collisions reveals insights about quarks and kaons.

Research on trapped ions and ultracold gases enhances quantum computing capabilities.

Researchers reveal complex dynamics in microwave networks mimicking quantum graphs.

Research reveals connections between Shapiro steps and ultracold atomic behavior.

Exploring how shape and curvity influence robotic group dynamics.

This study reveals unusual behaviors in Ce-Au-Al approximant crystals under various conditions.

Examining how laser light behaves in dense atomic gases reveals surprising outcomes.

Investigating unique pentaquarks and their significance in particle physics.

Researchers tackle motional dephasing in quantum technologies using optical dressing.

A new approach to estimate treatment effects considering social influences.

This study investigates how resonances decay into pseudoscalar mesons.

Researchers study the transition between two fascinating states in rhombohedral graphene multilayers.

Research shows ultracold fermions can simulate chemical reactions effectively.

A look into the factors affecting the maximum depth of extensive air showers.

New findings on fully-charm tetraquarks may change our understanding of particle physics.

Research sheds light on baryon number and electric charge in high-energy collisions.

Exploring the complexities of non-Hermitian quantum systems and their implications.

Spinners interact and synchronize on a vibrating liquid surface, revealing fascinating behaviors.

This article delves into the intriguing properties and production mechanisms of charmonium states.

Research reveals fractional behaviors in superconducting qubits using synthetic magnetic fields.