Latest Articles for Experimental Science

Explore how Quantum Fisher Information reveals insights into quantum states and chaos.

Research reveals new ways to enhance quantum correlations in ultracold atom systems.

A new approach to studying bremsstrahlung in light nuclei interactions.

Researching how solar cycles affect atmospheric neutrinos and their implications.

CUPID aims to detect rare nuclear processes to advance neutrino research.

Researchers test lithium molybdate crystals to study rare particle decay.

Scientists investigate the nature of neutrinos and their mass using the JUNO experiment.

Examining how angular spread affects photon emission in nonlinear Compton scattering.

This article discusses the ZnO scintillating bolometer's performance in detecting double beta decay.

Analyzing how higher-twist corrections affect neutral meson interactions in particle physics.

Scientists use machine learning to filter background noise in axion detection.

Researchers delve into dark energy's impact on the universe through collider experiments.

This article discusses how laser flaws affect electron acceleration in LWFA.

Research reveals unexpected muon densities in cosmic ray studies.

Investigating the type-II majoron and its potential role in dark matter.

Exploring the role of mesons in particle decay processes.

Enhancements in tracking methods boost discovery potential for long-lived particles.

Exploring how different states in quantum systems can inform and transform each other.

Scientists enhance axion detection through innovative measurement systems and noise sources.

The neutron skin sheds light on atomic nuclei and neutron star behavior.

Researchers use atomic magnetometers to detect elusive dark photons.

Researchers study how particle ratios change in high-energy heavy-ion collisions.

A new detector aims to improve electron measurement capabilities at the Electron Ion Collider.

Scientists observe new bottom strange states, enhancing knowledge of particle interactions.

Researchers aim to improve detection methods for light dark matter using hydrogen.

This article examines mesons' interactions with photons and effects on muon's magnetic moment.

Exploring the impact of neutron skin thickness on nuclear matter and neutron stars.

Exploring the unusual Mpemba effect and its implications in thermal dynamics.

ICAL aims to measure neutrinos and their oscillation properties with precision.

Investigating the potential presence of charm quarks within protons.

A look into the nature and search for dark matter in the universe.

Understanding particle behavior through collider experiments and precise measurements.

Scientists study dark axions and long-lived particles to uncover new physics.

Recent findings in B meson decays hint at possible new physics.

Scientists investigate dark matter models to deepen cosmic understanding.

This study reveals how nonlinear oscillators can enhance weak signals significantly.

Research on bottom-charm baryons reveals critical insights about their structure and interactions.

Belle II experiment sheds light on B meson decays and particle physics.

Scientists launch an experiment using Rydberg atoms to find dark photons linked to dark matter.

Recent experiments shed light on gravity and spacetime concepts.