Latest Articles for Experimental Research

A look into how particles move through materials and the effects of loss.

Investigating the complex magnetic behaviors of a hybrid copper sulfate material.

Recent experiments at a Chinese collider reveal significant particle interactions.

Researchers use light in cavities to alter superconductivity in materials.

Research reveals how rats estimate time using specific brain cell activity.

Research improves models of how quarks and gluons form hadrons in high-energy collisions.

Investigating the structure of nuclei through dijet photoproduction in unique collisions.

Discovering unique properties and potential applications of twisted bilayer graphene.

A new method improves experimental design for better battery data collection.

Exploring the potential existence of sterile fermions through neutrino interactions.

Research on quasiparticle cooling methods enhances quantum state preparation.

Researchers investigated charmonium states, aiming to find new processes in specific energy ranges.

Research reveals new ways to connect distant quantum systems using cavity magnonics.

Researchers explore using twisted light to enhance nuclear clock accuracy with thorium.

New insights into particle interactions using Standard Model Effective Field Theory.

Research on ordinary muon capture advances understanding of nuclear decay processes.

Researchers study how light interacts with fibers, revealing unique properties.

Study explores how ocean activity affects sensitive CUORE detectors in Italy.

Research reveals significant findings about pentaquarks and their resonance states.

PRANK enhances the accuracy of vibration measurements by reducing noise.

Research into nTGCs could reveal new physics beyond the Standard Model.

Research enhances knowledge of nonphononic excitations in glasses.

Research uses Bose-Einstein condensates to mimic black hole effects in quantum physics.

Explore the mysterious properties and implications of neutrinos in particle physics.

Research explores axions and their connection to gravitational waves and dark matter.

Researchers advance understanding of LaNiO's superconducting behavior under pressure.

Research into right-handed neutrinos and vector-like leptons could reshape particle physics.

Discover how quarks interact and the significance of symmetry breaking in particle physics.

Discover how tiny particles influence energy flow in complex systems.

Discover how indefinite causal order is reshaping our understanding of quantum mechanics.

Examining domain walls and anomalous symmetries in quantum spin chain systems.

A practical approach to measure drift velocity using Geometry Reference Chamber in TPCs.

Research on HgTe reveals unique electron interactions and their effects on conductivity.

Research reveals how vector mesons behave under strong magnetic influences.

Exploring the creation of unique light states in cavity quantum electrodynamics.

Exploring hedgehog and antihedgehog states in unique magnetic materials.

Scientists propose a collider to detect axion-like particles and explore dark matter.

An analysis of two-body losses in particle interactions and their implications.

This article examines how experiments relate to real-life situations in social science.

New methods boost the certifiable randomness from quantum measurements.