Latest Articles for Experimental Science

Belle II provides significant findings on D meson decays and branching fractions.

NEON experiment investigates axion-like particles, revealing new constraints on their existence.

Research on giant atoms reveals new possibilities in quantum computing and communication.

Discover how dark matter interacts with electrons and its importance in our universe.

Research reveals new control methods for emitting quantum entangled pairs directionally.

Researchers aim to uncover new particles through NA62's search for mono- signatures.

A Bayesian framework enhances the analysis of electron-laser collision experiments.

New framework improves analysis of particle collisions and systematic uncertainties.

This article examines recent measurements of top quark interactions and their significance.

Investigating dark matter through the Inert Higgs Doublet Model and axions.

Investigating the potential existence of sterile neutrinos through IceCube DeepCore data.

Scientists study dark photons to unlock secrets of dark matter and the universe.

Research into dark matter's effects on electrons could reveal its hidden nature.

Scientists develop advanced techniques to trap and study atoms with light.

Neutrinos offer insights into solar processes and particle physics.

Introducing a reliable protocol for W states to improve quantum communication.

Researchers reveal new findings on yrast states and transition probabilities in polonium isotopes.

Exploring particle interactions, especially the Higgs boson pair production, in high-energy environments.

This paper presents the Gamma Variance Model for accurate particle mass measurements.

Research explores how vortex states affect neutron decay processes.

Research on Quark-Gluon Plasma reveals conditions similar to the early universe.

Scientists observe neutrinos, improving understanding of particle physics and proton structure.

Examining how entanglement entropy reveals connections in our expanding universe.

Exploring the distinctive properties of quantum droplets in Bose-Einstein condensates.

This research investigates long-lived particles using the ATLAS detector at CERN.

Investigating unexpected decay patterns of the Higgs boson reveals potential new physics.

Study reveals insights into CP violation through sneutrino decay processes.

Investigating Beryllium-11 decays reveals key aspects of atomic nuclei behavior.

Research on hypernuclei reveals new insights into nuclear stability.

AMoRE-II seeks to detect rare neutrinoless double beta decay to unveil neutrino mysteries.

Scientists pursue methods to detect gravitons, expanding our knowledge of gravity.

Research on plasma and materials is vital for future fusion energy development.

Exploring energy transfer through quantum mechanics and its implications.

Examining the role of clockwork models in explaining neutrino masses.

A look into the elusive particles that shaped our universe's early moments.

Research advances reveal complexities in Higgs boson self-couplings.

The SMOG2 system enhances particle collision studies at the Large Hadron Collider.

New techniques aim to measure the neutron EDM with greater accuracy, exploring fundamental physics.

Scientists analyze single top quark production to test particle physics theories.

A study on Higgs boson interactions with charm quarks at the LHC.