Latest Articles for Experimental Science

Investigating the possible existence and impact of sterile neutrinos in particle physics.

Scientists investigate dark matter's subtle links to electron behavior through hadronic processes.

CUPID-Mo experiment provides precise measurements of Molybdenum-100 decay.

Borexino experiment provides first direct evidence of CNO solar neutrinos.

IceCube Observatory sheds light on neutrino behavior through years of atmospheric data.

Recent studies on hyperons reveal key details about their interactions and properties.

LUXE studies light and particle interactions to explore new physics.

Key methods for identifying significant factors across various industries.

Discover the quirky behaviors of non-Hermitian systems and their impacts.

A look into MiniBooNE's puzzling low-energy excess and its implications.

This study presents efficient methods for trapping Ytterbium atoms using lasers.

An exploration of quantum tunneling and its implications in physics.

A look into how particle masses differ and what drives these variations.

A look into dark matter's nature and its connection to phantom dark energy.

Examining how jets behave in quark gluon plasma reveals important properties of nuclear matter.

Scientists aim to create and observe domain walls to understand dark energy and matter.

Researching electric currents from particle collisions in magnetic fields.

A recent experiment refines limits on exotic particle interactions using NV-diamond magnetometer.

Examining photonuclear reactions reveals unique isomeric states in molybdenum.

Research reveals new dimensions in particle interactions with exotic states.

Research into rare particle transitions may reshape our view of the universe.

Study improves measurement accuracy of neutrino properties by considering multinucleon interactions.

Learn about solar neutrinos and their role in understanding the sun and particle physics.

Study measures particle interactions across specific energy levels.

Exploring the implications of Schrödinger’s cat in quantum mechanics.

A high-purity germanium detector improves data collection in particle physics experiments.

Research reveals discrepancies in particle collision models and the role of radiation.

Exploring how neutrino interactions with tritium can reveal secrets of the early universe.

Scientists use Rydberg atoms to enhance magnetic field measurement at room temperature.

The FASER experiment at LHC searches for dark photons linked to dark matter.

New techniques improve the detection of quantum entanglement across varying systems.

Researchers study heavy neutrinos to understand their role in particle physics.

Research explores how colored scalars might influence Higgs boson production linked to dark matter.

A study focused on quarkonium production from heavy atomic nuclei collisions.

Scientists investigate vector-bosons decaying into top and bottom quarks in proton collisions.

Research aims to clarify how hyperons acquire their spin in particle collisions.

This research uses AI to enhance detection of photons in particle physics.

Research sheds light on how atoms behave under acceleration in optical lattices.

Discover how polarization of gluons deepens our grasp of particle physics.

A study on how noise impacts dark matter detection using atom interferometers.