Latest Articles for Experimental Research

New principles pave the way for studying non-Hermitian materials without adverse effects.

Research sheds light on the production and decay of pentaquark particles.

This article explores the significance of studying three and four top quarks.

Recent Belle II results suggest unexpected particle decay rates, prompting scientists to rethink existing theories.

Research reveals complex behaviors in particle collisions, enhancing our understanding of matter.

New methods improve precision in matter-wave splitting of Bose-Einstein condensates.

New techniques in quantum clock interferometry aim to enhance gravity research.

Research unveils fascinating properties of zigzag-square lattice materials under magnetic fields.

Researchers achieve consistent measurements for scintillation yield in xenon gas, aiding particle detection.

Research reveals how vortex beams change upon reflection.

Research into charmonium reveals new resonances and interactions in particle physics.

The PICOLON experiment aims to detect dark matter using high-purity crystals.

Researching neutrino mass through models and symmetry reveals important physics connections.

Research reveals key interactions of particles at the Large Hadron Collider.

A new method enhances efficiency in particle physics research.

Study of interactions between light nuclei and conditions for stability.

Examining how circular dichroism affects electron scattering in hydrogen atoms.

Examining the effects of magnetic fields on quarks and gluons in finite volumes.

Exploring how thermalization helps us understand quantum systems and equilibrium.

A look into optical levitation and its potential through nonlinear feedback forces.

Researchers investigate exclusive hadronic decays of bosons to unlock new physics insights.

Research on NV centers in diamonds shows promise for better quantum control.

The muon collider may reveal secrets about heavy neutral leptons and fundamental physics.

Research reveals new phases in a mixture of Dysprosium and Erbium atoms.

Scientists study the decay of baryons with two charm quarks to deepen particle physics knowledge.

Scientists explore the unique properties of alkaline-earth ions for precision measurements.

Study of neutron interactions reveals crucial insights about nuclear forces and stability.

New methods improve charged particle tracking in high-energy physics experiments.

Study reveals unique magnetic behaviors in PbCo V O under various conditions.

Study reveals lower neutron production in ionized vanadium than expected.

A study on meson production enhances knowledge of particle interactions.

Research at the LHC uncovers vital information about b-jets and their production.

New methods enhance spin distribution estimation in NMR using advanced algorithms.

Examining superconductors' reactions to sudden shifts in temperature and energy structure.

A look into heavy-light mesons and their decay processes in particle physics.

Recent studies reveal the behavior of spin-1 BECs with spin-orbit and Rabi couplings.

Examining how different states of light affect quantum technologies.

Research sheds light on how cooling affects magnetic reconnection in astrophysical environments.

Recent findings in meson decays suggest intriguing possibilities for new physics.

This article delves into rare decay processes of charmed mesons using QCD sum rules.