Latest Articles for Experimental Research

Scientists investigate dark photons using advanced superconducting technology in a quest for dark matter.

A focused method for efficient optimization in high-dimensional problems.

A new error correction method improves measurements in ultracold atom quantum simulators.

Examining how light influences the quantum Hall effect in two-dimensional materials.

This study investigates photoproduction and particle creation through polarization observables.

Exploring new materials that manipulate sound waves effectively.

Researchers study B meson decays to improve understanding of fundamental particle interactions.

Researchers explore larger systems to improve sensitivity in detecting changes in physical constants.

Recent measurements reveal significant resonance structures in charmonium particle interactions.

Researchers examine how parity anomalies affect particle behavior in materials.

Investigating interactions between antiferromagnets and non-magnetic metals for better electronics.

Researchers achieve precise measurement of muonic helium-3 nucleus size.

Investigating how neutrinos interact with nucleons and the impact of nuclear effects.

Researchers propose new ways to find rare processes involving the top quark.

Exploring wave behaviors and intensity distributions within chaotic cavities.

Research explores how brightness and contrast affect depth perception in VR.

Research examines how defects affect superconducting properties of Ba K Fe As.

New insights into particle interactions challenge conventional views in quantum physics.

Research reveals the role of QED in proton spin contributions from partons.

This study reveals how particle decays can hint at new physics.

A look into the unique properties and production of doubly heavy baryons in particle physics.

Research reveals key details about neutrino behavior using argon interactions.

Researchers use multimode cavities to approach supersolid states in ultracold atoms.

Recent experiments have sought leptoquarks with new data from the LHC.

Scientists investigate unique behaviors of discrete time crystals and their implications for quantum systems.

Research sheds light on exotic particles made from charm and bottom quarks.

Research reveals how different projectiles impact nuclear reaction outcomes.

Examining how measurement timing influences experimental outcomes in social research.

Researchers at Belle search for double charmonium particles and their properties.

A study of coupled pendulums uncovers behaviors akin to quantum systems.

Examining energy distribution in particle collisions through energy-energy correlators and renormalons.

This study reveals how noise affects the motion of a cantilever beam.

A study on particle interactions in high-energy proton-proton collisions.

Researchers are investigating the mysteries of protons, including their mass and structure.

Researchers develop stable sound states using layered materials for advanced applications.

A new method uses neural networks to measure magnetic fields in inaccessible vacuum chambers.

Exploring how particle loss affects quantum systems through the Liouvillian skin effect.

Research examines Tsallis statistics for particle behavior in high-energy collisions.

Research explores how axions from the Sun can reveal its hidden characteristics.

Examining Higgs boson production with vector bosons and its implications for particle physics.