Latest Articles for Experimental Physics

Exploring how fermions create entangled states through tunneling and detection.

Exploring how rotation and magnetic fields influence fluid mixing and heat transfer.

Scientists observe vortex dynamics in Bose gas under rapid interaction changes.

Scientists investigate millicharged particles to uncover dark matter insights.

Scientists investigate W and Z bosons for clues about dark matter.

New insights into baryon resonances reveal their complex interactions beyond quark models.

A look into flavor symmetries and quark-lepton unification in mass differences.

Study on ultracold atom interactions reveals insights for quantum technology.

Research explores quantum states under less-than-ideal conditions.

A look into topological properties and dynamics in quantum systems.

Exploring the Left-Right Symmetric Model and its implications for neutrinos.

Discoveries in scattering amplitudes reveal deeper interactions between particles.

Study reveals the impact of charm quarks on particle production in high-energy collisions.

A look into hadron production during extreme nuclear interactions.

A new tool simulates DIS events, focusing on massive particles and neutrinos.

Exploring the effects of chirality in quark matter and its significance.

Research reveals how spin-orbit coupling can stabilize complex quantum states.

Scientists use light to create unique magnetic interactions in solid materials.

Examining fluid dynamics to reveal insights about black holes through analogue systems.

Study reveals impact of local density on Majorana states in semiconductor-superconductor devices.

Recent study refines coupling constants for heavy and light mesons using improved methods.

Exploring the properties and importance of pions in understanding fundamental forces.

Researchers investigate unexpected events in low-energy experiments for new physics insights.

New findings shed light on meson resonances and their interactions.

Exploring the relational nature of quantum individuals alters our view of particle behavior.

Investigating exotic hadrons and the impact of isospin on their behavior.

Exploring self-testing to improve quantum technology reliability and validation.

A new algorithm enhances the identification of quark types in high-energy physics.

Investigating the interplay of nucleon energy and particle fragmentation for deeper insights.

Researchers utilize two-tone spectroscopy to enhance quantum circuit understanding.

MgIrH shows potential for high-temperature superconductivity at normal pressures.

Exploring the behavior of electronic excitations in fractional quantum Hall effect systems.

Research reveals potential applications of fractional Chern insulators in quantum computing.

The fMeta-TPC enhances nuclear physics research through precise measurements of low-energy interactions.

Belle II experiment investigates elusive Dark Photons and their role in dark matter.

Learn about hadron production and particle interactions in high-energy physics.

Researchers study the intriguing characteristics of charmoniumlike mesons and their interactions.

Research explores changes in topological properties during quench dynamics in complex materials.

This article discusses ultracold atoms and their interaction with Bose-Einstein condensates.

A look into the complex behavior of three interacting particles.