Latest Articles for Experimental Research

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.

Researchers study jet production in deep inelastic scattering to test quantum chromodynamics.

Examining the decay processes of charmed baryons to understand fundamental forces.

Explore the role of electric dipole moments and their significance in particle behavior.

Research advances in Higgs boson production and its interactions with gluons.

A close look at heavy WIMPs and their role in dark matter research.

Study reveals crucial insights into hosing effects in plasma for particle accelerators.

This article explores the Heavy Quark Effective Theory and its applications in particle physics.

Study reveals intricate details of the isoscalar giant monopole resonance in atomic nuclei.

New insights on particle resonances improve knowledge of baryon-meson interactions.

Enhancing detection capabilities of HPGe detectors for identifying rare physics events.

Introducing tools to link theoretical models of new physics with experimental data.

New simulations reveal insights into baryon masses and quark interactions.

This article examines the unique characteristics of imbalanced quantum droplets.

A study on how BC408 performs when exposed to proton radiation.

Research on all-charm tetraquarks reveals mysteries of fundamental particles.

Researchers study surprising behaviors in small particle systems during heavy ion collisions.

This article explores non-Hermitian topological phenomena in dissipatively coupled SSH models.

Discussion on advancements and collaborative efforts in muon research.

Research sheds light on scalar meson decays and their implications in particle physics.

This article explores B mesons and their decay processes through various experimental findings.

Research sheds light on gluon mass generation and its implications for particle physics.

Investigating muon-electron scattering for better understanding of the muon's magnetic moment.

Researchers achieve significant measurements on neutrinos’ behavior and properties.

A look into the nonlinear Hall effect and its implications for materials science.

A look into the fascinating world of quantum phase transitions and superradiance.

Investigating diquarks to explain anomalies in particle physics.

Researchers improve particle identification during high-energy collisions using machine learning techniques.

Researching axionlike particles reveals new insights into dark matter.