Latest Articles for Atomic Physics

Using rubidium and cesium together improves quantum computing qubit performance.

Exploring how information theory sheds light on quantum systems under confinement.

Research on HeC60 reveals important behaviors of trapped helium in fullerenes.

Investigating the unique behaviors of ultracold bosons and their interaction with light.

Recent measurements of Fe17 improve our understanding of space phenomena.

Investigating how accelerating atoms behave in different environments.

A new method improves atom array setups for quantum computing.

Study examines how noise and signals impact Rydberg atoms' collective jumps.

Exploring the effects of magnetic fields on spin-1 Bose-Einstein condensates.

Exploring how quantum mirrors affect light emission from atoms.

This study explores electric biasing to enhance helium atom focusing using Fresnel zone plates.

Researchers enhance dimer models with Rydberg atoms to study complex quantum phenomena.

Learn how Rydberg atoms are shaping the future of quantum computing.

Research reveals key findings on electron interactions with xenon atoms and ions.

A study on phase dynamics in parallel 1D Bose gases during time-of-flight measurements.

Exploring spin squeezing techniques to improve measurement precision in quantum technology.

Researchers uncover unique wobbling motions in Palladium, revealing new atomic behaviors.

Research reveals key insights into metal-insulator transitions using cold atom systems.

Advances in technology aim to make accurate timekeeping devices portable for real-world use.

New findings on lead clock transitions enhance atomic clock accuracy.

Researchers control quantum behaviors using Rydberg atoms in a synthetic lattice.

Research focuses on electron dynamics during nonsequential double ionization under short laser pulses.

Research unveils the effects of mass imbalance on three-body interactions.

Exploring the dynamic behavior of atoms in quantum systems.

Exploring the potential of Rydberg superatoms in quantum information and optics.

A closer look at the thermodynamic properties of one-dimensional bosonic systems.

Exploring edge states in optical lattices and their implications for quantum technologies.

Research on photon generation using three-level atoms in cavities under various conditions.

Researchers analyze chromium atoms' spin behavior in a 3D optical lattice.

This article explores the unique properties of alkaline earth atoms for technology applications.

This study examines geometric phase changes in two-level atoms near dielectric nanospheres under non-equilibrium conditions.

This study examines phase separation in spin-1 and spin-2 Bose-Einstein condensates.

Scientists achieve precise measurements of microwave fields with cold Rydberg atoms.

A look into how light interacts with hydrogen atoms and impacts spectral line profiles.

Examining how laser light affects coherence in atomic gases.

A look into the unique state where gases behave like solids.

Research reveals unique behaviors of fermionic impurities in quantum droplet systems.

Discover how light affects electron behavior through photoelectron interferometry.

Study reveals how cobalt and rhodium atoms move differently on a manganese surface.

Exploring parity violation effects through cesium's unique atomic properties.