Latest Articles for Experimental Science

Examining energy patterns of neutrinos and photons reveals potential dark matter signals.

Exploring the links between particles and their quantum behavior.

Exploring nucleosynthesis and hypernuclei formation through high-energy collisions.

Learn about how failures spread in interdependent networks and their effects.

New techniques enhance efficiency and accuracy in experimental design using Bayesian methods.

New methods could lead to more efficient muon generation for experiments.

A novel method to accurately measure quantum states using rubidium vapor.

Researchers aim to measure muon EDMs to uncover mysteries of the universe.

Researchers improve axion search experiments with innovative circuit designs.

A look into the significance of soft gluons in Quantum Chromodynamics.

Discover the challenges and findings in the search for elusive cosmic neutrinos.

Scientists propose innovative sensors to enhance dark matter research.

A look at elastic scattering and fusion processes in nuclear physics.

New findings suggest particles beyond current models may explain recent anomalies.

Scientists seek to reveal the mysteries surrounding sterile neutrinos through advanced experiments.

Neutron-rich nuclei play a key role in understanding symmetry energy and nuclear stability.

Research sheds light on muon neutrino behavior in argon for future experiments.

This article explores decoherence in matter-wave interferometers and its implications for quantum physics.

This study examines the interactions between helium-4 and bismuth in nuclear collisions.

Anomalies in particle behavior challenge existing theories in particle physics.

Researchers advance our understanding of light and matter interactions through high-precision QED tests.

Researchers study how gravity affects entanglement in nano-crystals.

Researching the equation of state of nuclear matter through heavy ion collisions.

Scientists investigate dark matter interactions using advanced detection methods.

A look into Effective Field Theories and their role in particle physics research.

A look into CE NS and its implications in nuclear and particle physics.

Belle II explores lepton universality and searches for new particles.

Investigating light interactions with rubidium vapor in strong magnetic fields.

Hybrid mesons could reshape our understanding of particle interactions.

Scientists study quark matter's behavior under extreme conditions and the role of Debye mass.

Upcoming DIS experiments aim to enhance our knowledge of fundamental forces.

Research on pentaquarks sheds light on the strong force and particle interactions.

Exploring the implications of massive Brans-Dicke theories on gravitational dynamics.

CERN's SPS unveils experiments to deepen our knowledge of heavy-ion collisions and matter's behavior.

Scientists investigate a newly discovered particle's structure and interactions.

Exploring the fascinating behavior of phase separation in spin-orbit coupled Bose-Einstein condensates.

Scientists aim to identify Glashow resonance in cosmic neutrinos using advanced detection methods.

Recent findings on gravitational waves may reveal the role of heavy QCD axions.

Exploring different models that describe alpha particle scattering interactions and their implications.

Studying the phases of ultra-cold particles in controlled environments reveals key quantum behaviors.