Latest Articles for Atomic Physics

Research reveals methods to produce a stable titanium atomic beam for quantum studies.

Exploring the high precision and applications of rubidium-based optical atomic clocks.

Exploring superradiance in systems of interacting spins.

This article discusses ultracold atoms and their interaction with Bose-Einstein condensates.

This study examines how acceleration affects atomic energy levels and explores the Unruh effect.

Study reveals complex interactions of photoelectrons in argon under laser influence.

A detailed overview of laser cooling methods for atoms in traps.

New optical frequency reference shows promise for stable, compact atomic clocks.

Research reveals new insights into Strontium and Yttrium from neutron star collisions.

Scientists develop advanced techniques to trap and study atoms with light.

An overview of two-body systems and their complex energy interactions.

Examining how rubidium atoms and KRb molecules interact at ultracold temperatures.

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

Investigating Beryllium-11 decays reveals key aspects of atomic nuclei behavior.

A look at the unique properties and potential applications of quantum droplets.

Research on radium-225 ions opens doors in quantum science and precision timekeeping.

This research examines how atoms respond to electric and magnetic fields.

A look into the properties and calculations of spin-2 BECs.

Study reveals effects of nonlinear Landau-Zener tunneling in spin-orbit-coupled condensates.

Research on ultracold dipolar bosons reveals complex quantum behaviors.

Learn about the zero-energy photoelectric effect and its significance in light-matter interactions.

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

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

This study examines how atoms form organized spin patterns in optical cavities.

Research sheds light on K emissions from He-like oxygen in high-energy environments.

Researchers enhance control over neutral atoms using Rydberg atoms in lattice structures.

This research analyzes the Hulth en potential using ordinary and superstatistical methods.

Research reveals insights into superconductivity through the double Kondo lattice model.

Researchers investigate the unique behavior of odd-even effects in neutral atomic quantum gases.

New laser technology enhances the excitation of Rydberg atoms for quantum applications.

Scientists examine how atoms and light interact in waveguides for new technology.

This article discusses recoil-free quantum gates using optical qubits for better fidelity.

This article reviews parity violation effects in cesium, focusing on nuclear interactions.

Investigating non-exponential decay behaviors in hydrogen's 2P to 1S transition.

Research on Rydberg atoms reveals insights into quantum systems and disorder dynamics.

Recent studies reveal complex behaviors of Bose gas near Feshbach resonances.

Exploring the unique properties and applications of black phosphorus in electronics.

Research reveals how light affects the beryllium atom's electron behavior through photoionization.

Researchers measure Landau-Zener Rabi oscillation in cold atoms for improved quantum technology.

A study of atomic behavior under squeezed coherent light interactions.