Latest Articles for Experimental Science

Scientists use a fiber interferometer to search for elusive axions linked to dark matter.

A look at the search for dark matter associated with Higgs boson decays.

A novel detector improves measurements of electron emissions from beta decay processes.

Scientists use microwave radiation to stabilize Rydberg atoms against electric fields.

New insights into unique particles formed from heavy quarks.

Robots improve the accuracy and efficiency of quantum sensor operations.

Researchers study how robotic particles can form micelles through controlled movement.

Recent experiments reveal surprising differences in symmetry energy and neutron skins.

Scientists propose new experiments to uncover the hidden properties of neutrinos.

An investigation into the precise measurement of proton size using muon interactions.

Exploring the potential of cold cadmium in physics experiments.

New methods improve detection probabilities in quantum many-body systems.

Research unveils trends in neutron-deficient indium isotopes and their isomers.

A study on quantum systems using superconducting qubit arrays reveals new insights.

Scientists investigate the unexpected gallium anomaly in neutrino detection.

Discovering high-frequency gravitational waves could reveal secrets of the early universe.

New laser technique improves positron production and polarization for scientific research.

A closer look at the muon and its magnetic properties.

A closer look at ideal anyons and their behavior in Bose liquids.

This article explores the various shapes and behaviors of atomic nuclei.

Researchers analyze proton collisions for evidence of dark photons linked to dark matter.

Scientists study muons to learn about time dilation and its relation to gravity.

Learn how acceleration changes the perception of radiation in physics.

Examining particle decay's role in revealing CP violation and understanding the universe.

This study investigates environment-assisted electron capture phenomena involving barium and rubidium atoms.

Researchers investigate intense laser interactions with neon, producing high-energy electrons.

This article explores the Odderon and its significance in particle physics.

Scientists investigate gauge couplings to uncover potential new physics beyond the Standard Model.

Investigating the mysterious processes behind neutron decay and its implications.

Exploring the challenges and significance of detecting neutrinos in the universe.

Researchers aim to understand neutrinos through left-right symmetry at future colliders.

Researchers refine methods to detect lighter dark matter particles, revealing new constraints.

MINERvA study sheds light on nucleon structure through antineutrino interactions.

A look at scalar mesons and kaon-induced reactions in particle physics.

A classical experiment demonstrates quantum principles using droplets on a vibrating surface.

A novel approach enhances control over atomic collisions for scientific advancements.

Exploring the unique properties of neutrinos and their interaction with gravity.

A proposed experiment to investigate gravity's behavior using entangled microspheres.

Exploring the significance of scattering processes in understanding particle interactions.

Examining the significance of scalar particles in particle physics and the GeV excess phenomenon.