Latest Articles for Experimental Research

New prototypes show precise timing and improved robustness in particle detection.

A new setup measures proton spins in water for magnetic field research.

Scientists investigate axion-like particles to answer key questions in physics.

Researchers use melted tin to simulate meteorite impacts and study crater shapes.

A look into nuclear reactions involving Lithium-6 and its interactions with other particles.

Scientists investigate dark matter candidates, focusing on WIMPs and BSWs.

Research focuses on axinos as candidates for dark matter.

New insights into how electrons ionize krypton gas at varying energies.

Researchers use atomic gases to study cosmic evolution and particle dynamics.

A study examines potential heavy particles linked to top quarks in LHC data.

Researchers use treadmills to analyze how fruit flies adapt their movements.

Exploring how the Sagnac effect connects to Einstein's Equivalence Principle.

Scientists study tetraquarks, exotic particles made of four quarks, exploring their properties and stability.

Study reveals complex behaviors of light in various materials.

New T0 detector enhances timing accuracy in heavy-ion collision experiments.

An overview of polymer networks and their unique behaviors.

Recent findings challenge existing theories on electron effective mass and spin polarization.

Researchers investigate exotic particles called pentaquarks, challenging current matter classifications.

Study shows machine learning improves predictions for drop coalescence in microfluidics.

This article explores the ionic Hubbard model and its phases with density-dependent hopping.

Researchers study the muon anomaly to uncover potential new physics beyond the Standard Model.

Scientists study unique molecules formed from quarks during particle decays.

Study reveals unique energy transport behaviors in Rydberg atoms under strong interactions.

A new model improves signal analysis for dark matter detection.

Research reveals important insights into ion mobility of heavy elements in helium.

Researchers use light to simulate non-Abelian anyons for insights in quantum computing.

New testing system improves material safety assessments for space missions.

Research focuses on the tensor glueball's decay and its implications for particle physics.

A look into strange and charmed baryons and their significance in particle physics.

Explore the unique properties and behaviors of superfluids in various conditions.

Researching quark-gluon plasma through heavy ion collisions reveals properties of matter under extreme conditions.

Research focuses on measuring coil inductance in superconductors at varying temperatures.

Scientists continue to debate the true size of the proton.

This article examines the role of uncertainty in quantum versus classical physics.

A look into the search for dark photons and their role in particle physics.

Examining isolated photons in high-energy proton collisions and their importance in particle physics.

A study of particle flow influenced by a moving barrier and interactions.

Investigating why hot water can freeze quicker than cold.

A look into the interactions of the hypertriton and their significance in nuclear physics.

Lutetium hydride shows color changes under pressure, linked to its superconductivity claims.