Latest Articles for Experimental Physics

Scientists investigate axions to uncover dark matter’s mysteries and advance physics.

Neutrinoless double beta decay may reveal insights into neutrinos and new particle physics.

Examining edge modes in quantum Hall systems to reveal unique topological properties.

Research highlights the role of subgap states in superconductor-semiconductor devices.

Exploring the complexities of labeling outcomes in quantum measurements.

Research focuses on spin behavior of vector mesons in high-energy collisions.

A look into the electromagnetic properties of pseudoscalar mesons.

Recent findings suggest potential new particles in Higgs boson data.

Study explores how Bose gas can exhibit anyonic properties through gauge field introduction.

Scientists examine light nuclei production during ultraperipheral collisions and photon interactions.

Researchers achieve control over ion-atom interactions beyond ultracold temperatures.

Examining the interactions of quantum rotors within Bose-Einstein condensates.

A study on measuring temperature effects in superconducting qubits and their environments.

Research into neutrinoless double beta decay could reveal secrets about neutrinos.

Researchers study quantum spin liquids in ruby and maple-leaf lattices for insights into magnetic behavior.

New insights challenge traditional views on quarkonia and QGP formation.

Recent findings reveal how stability can exist in disordered systems.

Research reveals new potentials for precise light manipulation using MPLCs.

Exploring the challenges and implications of measurement incompatibility in quantum systems.

A fresh approach to dark matter introduces new particles and coexisting properties.

Research explores anomalous reflectors for improved communication signal strength.

Research on Clevios' fluorescence in TPC applications reveals minimal background noise.

Investigating how magnetic fields impact phonon dynamics in Kitaev materials.

Researchers simplify wave focusing methods for hidden targets in complex materials.

Study reveals how heavy flavor impacts particle fragmentation in collisions.

A study focusing on handling infrared divergences in high-energy particle interactions.

Research sheds light on binding energies of tetraquarks, especially doubly bottom configurations.

Research on muon's magnetic moment leads to new theoretical models.

Exploring how cavity size affects hydrogen and helium ion interactions with light.

Research reveals how quantum wires interact with mechanical motion and Lorentz invariance.

Research enhances pair production efficiency using combined electric fields.

This article discusses strategies to control unwanted interactions in quantum computing.

A look into the Casimir effect and its impact on physics.

Exploring key concepts of nonclassicality and measurement in quantum systems.

A new method links excitons with mechanical systems, boosting quantum technology potential.

Exploring the impact of vector-like leptons on lepton mass and interactions.

Analyzing QCD corrections for accurate predictions of Higgs boson decays.

This study reviews weak decays and their implications for new physics.

Scientists study Majorana bound states using quantum dots for improved quantum computing.

Researchers examine the unique structures formed by electrons in strong magnetic fields.