Latest Articles for Experimental Physics

Combining AI and experimental data to improve turbulence measurements and predictions.

Examining the role of diffractive processes in particle physics.

Investigating how Yukawa couplings impact neutrino masses and lepton flavor violation.

Exploring the potential of Majorana qubits in quantum technology and their advantages.

Exploring shape changes and stability in atomic nuclei through neutrons and phase transitions.

Research into quantum droplets reveals their unique behaviors in different dimensions.

Research reveals how light affects the behavior of BCS superconductors.

An overview of techniques and findings related to Higgs boson production.

Exploring light-matter interactions and the conversion of virtual photons to real.

A look into the properties and significance of triply heavy baryons.

A fresh look at light and matter interactions in quantum physics.

An exploration of twist-3 GPDs and their role in proton structure.

Research reveals crucial details about particle decay processes and their implications.

Study reveals water jet behavior and droplet formation on heated surfaces.

Investigating how nucleons interact and affect their effective mass in various environments.

This article explores non-Hermitian systems and their unique topological properties.

This article discusses new control methods for oscillators using fluxonium qubits.

Scientists study neutrinos and polarized electrons to explore time reversal symmetry violation.

Research into Bose gases reveals complex interactions under different conditions.

A look into how quantum particles pass through barriers and the complexities involved.

Research sheds light on how light nuclei form in extreme nuclear environments.

A look into vortex dynamics and their implications in Bose-Einstein condensates.

Examining the behavior and formation of chiral polarons in topological insulators.

Research reveals improved performance of superconducting qubits for quantum computing.

Research on tetraquark and hybrid states is revealing new aspects of particle physics.

Studying the formation of van der Waals molecules through three-body recombination in cold atomic gases.

Exploring how cold nuclear matter alters particle production in heavy-ion collisions.

Research on TiSe reveals its unique superconducting properties linked to charge-density waves.

Research on tetraquarks challenges current understanding of quark combinations and interactions.

This study examines how bosons decay into mesons and the implications for particle physics.

Study of rare particle events using advanced detection techniques.

Research reveals unique magnetic and thermal properties of YbFe P near quantum critical point.

Examining the effects of entanglement on quantum systems and materials.

BabyIAXO seeks to detect high-frequency gravitational waves and dark matter axions.

Researchers use machine learning to analyze complex physics models beyond the Standard Model.

Exploring the unique behavior of fractional vortices in superconductors.

Examining new methods for identifying boosted top quark jets in particle collisions.

A closer look at how the hypersphere model helps understand viscous liquids.

Study reveals complex interactions in BECs under non-standard conditions.

Research sheds light on C-14 interactions in cancer radiotherapy.