Latest Articles for Atomic Physics

Exploring how atomic light emission shapes quantum technology.

This study examines spin noise for insights into atomic interactions.

A look into the unique properties of spin-orbit coupled quantum droplets.

Researchers achieve low temperatures for potassium atoms using natural sources.

Using microwave-driven techniques to enhance quantum gates with neutral atoms.

A basic overview of how atoms interact with light using programming.

Study reveals how potassium-39 atoms interact with patterned magnetic films.

Recent findings shed light on neutral carbon and its role in the solar atmosphere.

Researchers study Rydberg atoms in neon to enhance sensing technologies.

Exploring the potential of mirrorless lasing in quantum science and technology.

New imaging technique improves precision in spectroscopy by reducing Doppler broadening effects.

New system improves accuracy and stability in atomic clock timekeeping.

Exploring electric dipole polarizability's impact on cesium-based atomic clocks and quantum computing.

A look at Ramsey interferometry's application in three and five-level Bose-Einstein condensates.

New techniques in optical magnetometers show promise for medical diagnostics and beyond.

A novel model that simplifies the study of atom interactions.

This study explores the behavior of spin polarons in Mott insulators and their potential for superconductivity.

How plasma affects atomic behavior and light interactions.

Exploring how Rydberg atoms parallel infection spread in complex systems.

New insights into spin behaviors in Bose-Einstein condensates revealed through experimental studies.

A look into the driven Jaynes-Cummings model in quantum optics.

New techniques significantly improve efficiency and performance of quantum memory using barium atomic vapor.

This study focuses on atom correlations to understand ultracold gas behavior.

Research reveals how atoms behave in dissipative optical lattices with Brillouin modes.

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

This article examines how normal modes reveal thermal properties of materials.

Research advances understanding of zinc isotopes using laser-induced fluorescence techniques.

Examining how the sine-Gordon model behaves under sudden changes in particle systems.

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

Researchers investigate cesium atoms in Rydberg states using advanced spectroscopy techniques.

New measurements improve Yb ions for precise frequency standards.

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

A look into how black-body radiation impacts the accuracy of optical clocks.

Opacity is key to understanding energy movement in stars and their chemical makeup.

New methods improve measurements of hydrogen's Rydberg states, revealing atomic interactions.

Examining how circular dichroism affects electron scattering in hydrogen atoms.

Scientists explore the unique properties of alkaline-earth ions for precision measurements.

Study reveals key interactions between alkali atoms and various materials.

Research on Rydberg atoms reveals methods to control energy transport dynamics.

Researchers investigate non-Abelian braiding operations in quantum states for improved computing.