Latest Articles for Experimental Physics

Scientists distinguish helium and electron recoils in liquid xenon for dark matter detection.

This study examines the role of odderon spin in elastic scattering processes.

Research focuses on new particles to deepen our understanding of the universe.

Rydberg molecules reveal exciting atomic behaviors and potential applications in modern science.

Halide perovskites offer potential for solar energy and light-emitting devices.

This article explores the (1460) meson and its interactions within kaonic systems.

Researchers observe unique quantum states in bilayer MoS₂, advancing electronic technology.

Research sheds light on how quantum effects manifest in gravity under extreme conditions.

Research reveals new evidence of triboson particles in high-energy collisions.

Examining quasiparticles and Andreev reflection in unique quantum states.

A look into quantum synchronization and its significance in technology.

Researchers enhance the study of molecular ion shapes using Coulomb crystals.

Study reveals complex interactions of charged particles in plasmas.

A look into hadron collisions and inelastic events in particle physics.

Explore the unique features and significance of quantum Hall states in physics.

Exploring the importance of Chern numbers in quantum materials and their unique properties.

Research examines quantum systems' behavior during sudden changes and phase transitions.

Explore gapped interfaces in fracton models and their significance in material science.

New methods can store light more efficiently for future technology.

Machine learning aids in controlling quantum dots for future computing.

Research into electric dipole moments reveals new insights about the universe's structure.

A look into new findings about Higgs bosons and dark matter.

Scientists propose new theories to explain mysteries in particle physics and the universe.

New methods for generating entangled photon states pave the way for quantum technologies.

Research on dark photons could explain magnetic anomalies in particle physics.

Recent studies suggest lepton behavior may not align with established physics models.

Study reveals insights into oxygen decay processes affecting element formation in stars.

Researchers explore laser-free methods for improving trapped ion quantum computers.

Investigating the unique properties of bilayer graphene and its potential in quantum computing.

A new method enables easier detection of light superpositions using a single photon detector.

An overview of the Wigner reaction matrix and its role in wave interactions.

Muon colliders could revolutionize our understanding of the Top Yukawa coupling and the Higgs boson.

A look into how qubits behave and the models predicting their performance.

Recent studies delve into the magnetic properties of the positive muon and its anomalies.

A look into the Higgs boson mass and its implications for particle physics.

Exploring the unique behaviors of heavy fermion compounds with Cerium and Europium ions.

Research reveals unique behaviors in non-Hermitian open quantum systems.

Recent findings shed light on diquarks' role in charm baryon production.

A look at how theoretical models explain quark confinement in particle physics.

Researchers propose a method to measure electron spin using sound and light in superfluid helium.