Latest Articles for Experimental Research

Exploring the unique structure and reactions of halo nuclei, focusing on beryllium-11.

Research focuses on Higgs boson pair production and its implications for particle physics.

This study examines how unique materials behave under varying conditions.

Recent experiments hint at a possible new particle around 95 GeV at the LHC.

This article examines how particle layers relax after compression.

Examining interface dynamics in quantum fluids reveals intriguing behaviors.

Learn how heavy-ion collisions reveal atomic structure and cosmic connections.

Exploring the behavior of single-electron pumps influenced by magnetic fields.

Examining bubble dynamics in quantum systems reveals insights into the early Universe.

Exploring non-stabilizer states in Rydberg atom arrays for quantum computing.

Exploring the connection between ultracold gases and neutron star dynamics.

Research highlights unique behaviors in non-Hermitian systems using quantum computers.

Study of how thick reaction zones impact flame behavior in narrow channels.

A look into the interactions of doubly charmed baryons and kaons.

Research on rare neutrino tridents could reshape particle physics.

Exploring unique concepts and challenges in particle physics with LW QED.

A novel model offers clues to dark matter and particle physics anomalies.

Study reveals key measurements of charmed baryons and their decay properties.

New methods improve the measurement of particle energy in physics experiments.

Examining how crystal defects impact detection in particle physics experiments.

Exploring the behavior of Wigner molecules in layered materials.

Research on energy dynamics reveals chaos in quantum atom-photon systems.

New insights into bottom baryons enhance particle physics knowledge.

Research highlights interactions between particles and effects of strong gravity.

Investigating new particles that may change our understanding of the universe.

Research reveals new data on deuteron-proton scattering and its fundamental interactions.

New methods shed light on wave interactions in magnetic films.

New data-driven methods enhance understanding of topological insulators and their unique properties.

A look into the smallest parts of matter and their interactions.

Research reveals trimers' behavior influenced by magnetic fields and thermal gas density.

New experiments and proposals aim to deepen our knowledge of neutrinos and their behavior.

Exploring the role and mystery of neutrinos in our universe.

Research reveals new understanding of supersolids using polaritons.

Exploring jet production in diffractive electron-proton collisions reveals important insights.

Researchers propose interaction annealing to improve understanding of complex materials like WTe.

This article examines the FN mechanism and its implications for particle physics.

This study reveals new data on neutron-antineutron interactions and their significance.

Exploring the role of quarks and parton distribution functions in high-energy physics.

Researchers investigate unusual properties of spin-1/2 trimer chains under magnetic fields.

JADE data reveals possible new physics beyond the standard model.