Latest Articles for Experimental Research

A novel approach improves understanding of charged particle scattering interactions.

Research reveals vital magnetic and conductivity characteristics of Fe Sn through temperature-dependent studies.

Investigating how tilted lattices affect particle movement and transport efficiency.

Exploring the role of gravitational cat states in quantum technologies and correlations.

Study reveals how wing shape affects air flow and performance.

This article details the efficiencies of electrons and photons in LHC experiments.

Research into chiral superconductivity reveals potential advancements in quantum materials.

Scientists investigate hydrogen's energy levels to advance theories in physics.

How plasma affects atomic behavior and light interactions.

Research on charmed hadrons reveals insights into high-energy nuclear collisions and quark-gluon plasma.

Research reveals a method to detect Majorana states using an extra quantum dot.

Examining light-driven interactions among levitated particles opens new research opportunities.

Scientists investigate dark matter's properties and its connection to the Higgs boson.

Researchers create flat Landau levels in a 3D structure made from sound waves.

A look at neutrino oscillation and the challenges of parameter degeneracy.

New methods improve the accuracy of missing transverse momentum measurements in collider experiments.

Researching edge currents in small chiral superconductors reveals important properties.

Researching baryon behavior in extreme conditions reveals insights into phase transitions.

A look at how materials change states in quantum circuits.

Research into lepton flavor violation aims to uncover new particles and interactions.

Scientists examine nTGCs to reveal new physics beyond the Standard Model.

Study reveals how particle size affects production during high-energy collisions.

A fresh approach to understanding topological materials using current noise measurements.

Researching axion-like particles may reveal new insights into particle interactions and decay processes.

Research reveals how motor behavior influences active nematic materials.

New measurements improve understanding of neutrino-induced charged pion production.

MRPC3b development enhances particle detection for future experiments.

A new system uses machine learning to improve data quality monitoring in experiments.

Recent experiments on cesium-lithium mixtures reveal unexpected stability and sound behavior.

CLIC aims to find leptophilic bosons, probing beyond current physics limits.

Researchers analyze lepton-nucleus scattering to deepen insights into nuclear interactions.

Scientists study bosons in lattices, revealing stabilization through disorder.

This article examines baryon behavior and correlations in high-energy particle collisions.

Axions may be key to solving dark matter and strong CP problems.

Research highlights unusual hadron states and their interactions in particle physics.

Examining runaway electrons and their impact on plasma stability in fusion reactors.

Examining how light behaves in multimode fibers during thermalization experiments.

Research reveals how atoms behave in dissipative optical lattices with Brillouin modes.

Microbubbles enhance medical imaging, drug delivery, and cleaning through unique oscillation behaviors.

A look into exotic hadrons and their unique configurations in particle physics.