Latest Articles for Experimental Physics

New techniques reduce quasiparticle poisoning, enhancing superconducting qubit performance.

Scientists investigate unexpected results from the MiniBooNE experiment, exploring potential new particles.

Exploring the role of response functions in quantum physics and their practical applications.

New insights into the behavior of quantum gases reveal potential technological applications.

Upcoming experiments will enhance knowledge of protons and neutrons through neutrino interactions.

Research reveals insights on superfluidity and dynamics in Bose-Einstein condensates.

This article discusses the unique properties of dipolar ferromagnets and their critical behaviors.

Research on creating photon pairs using Hermite-Gaussian modes reveals new quantum applications.

New experiments aim to study the muonium-to-antimuonium transition and its behaviors.

Study reveals new methods to generate multi-mode entangled states using SU(1,1) interferometers.

Research reveals spontaneous voltage peaks in niobium channels under specific conditions.

Examining fragmentation functions and sum rules in high-energy particle collisions.

Exploring the significance of CP violation in understanding matter and antimatter.

Researchers study robust topological edge states using Rydberg atoms and various arrangements.

This article examines how backing materials influence neutron production in lithium-proton reactions.

A look into dipole orientation effects on particle interactions at high energies.

Research shows how patterns emerge in Bose-Einstein condensates through atomic interactions.

Exploring quantum cellular automata and their potential for error correction in computing.

This article explores neutrino mass through minor zeros in the mass matrix.

Examining dipole strengths using gadolinium helps illuminate nuclear processes.

Research reveals complex behaviors in quantum oscillations of iron-chalcogenides during phase transitions.

A concise overview of photon-pair sources and their evaluation in quantum optics.

Research showcases efficient phase modulation using warm rubidium vapour for quantum computing.

Research unveils unique behaviors of cold atoms influenced by external light fields.

A look into Efimov states and their implications in nuclear physics.

Study reveals how direct photons shed light on extreme matter conditions.

Improvements in energy measurement accuracy for electrons and photons at the ATLAS detector.

Researchers unveil a method to study baryon mixing and symmetry breaking accurately.

A look into the unique behavior of quantum droplets in various conditions.

A look into how energy is shared in particle jets.

An overview of how gravitational waves reveal black hole properties during mergers.

DUNE experiment investigates elusive long-lived particles to advance particle physics.

Exploring the role of synchronization in quantum mechanics and its applications.

Researchers enhance data collection in heavy ion physics experiments.

Research on mesons helps reveal fundamental forces through semileptonic decays.

Advancements in QED calculations enhance the accuracy of particle physics experiments.

Study explores the behavior of spins in weakly interacting Fermi gases.

Researchers investigate light vector bosons to better understand particle physics and the universe.

Exploring polaron behavior in complex particle systems enhances our understanding of fundamental physics.

A look into beta decay and the significance of the Fermi function in nuclear physics.