Latest Articles for Atomic Physics

Researchers investigate nonlocal interactions impacting particle behavior and the Lamb shift.

Researchers improve qubit measurement methods in quantum computing with minimal disturbance.

Scientists enhance atomic interactions using partially-transparent mirrors, impacting quantum technology applications.

Explore the Lamb shift and its impact on atomic energy levels.

Research showcases converting microwave signals to optical for improved quantum information systems.

An overview of chiral transitions and their impact on quantum friction.

New methods reveal insights into collective behaviors of atoms interacting with light.

Research reveals complex behaviors of three-particle arrangements in thermal gases.

Study reveals complex interactions in strontium dimer's excited states.

This study reveals how quantum fluctuations shape behaviors in two-component BECs.

Research sheds light on bosonic gases at low temperatures and their behaviors.

Examining self-energy corrections in hydrogen atoms and their role in atomic physics.

A look into atomic behavior during excitation and decay.

Study reveals how different laser colors affect electron interactions with hydrogen atoms.

Research reveals the impact of negative-energy states on optical clock accuracy.

This study investigates environment-assisted electron capture phenomena involving barium and rubidium atoms.

Research explores new methods for preparing excited states of ultracold atoms.

Recent advancements in atomic parity violation studies enhance electroweak observable extraction.

New findings shed light on high-energy electron production in laser interactions.

This article summarizes key findings on multi-center point interactions in quantum systems.

Examining the properties and behaviors of quantum droplets in optical lattices.

Research reveals persistent non-Gaussian correlations in Rydberg atom systems after significant changes.

Optical clocks measure time using atomic vibrations with impressive accuracy.

Research on Rydberg atoms could transform quantum computing and energy efficiency.

Examining quantum phases in spin-1 Bose-Einstein condensates under specific conditions.

Examining how laser light affects three-electron atoms and electron behavior.

Research on cold atoms reveals new states and properties in quantum physics.

Research reveals new insights into solitons in spin-orbit-coupled Bose-Einstein condensates.

A method to create stable spin states using trapped ultracold atoms and Bose-Einstein condensates.

Researchers enhance understanding of three-body loss in ultracold gases.

Researchers develop techniques to cool Yb ions, improving accuracy in experiments.

New methods improve lifetime measurements of highly charged ions for precision technologies.

Study reveals nuclear spin's influence on transition polarizability and atomic measurements.

Examining interactions between atomic groups and light fields reveals complex behaviors.

A model revealing behavior in open quantum systems influenced by dissipation and magnetic fields.

Investigating light interactions with rubidium vapor in strong magnetic fields.

Exploring the fascinating behavior of phase separation in spin-orbit coupled Bose-Einstein condensates.

This study examines the creation of random potentials through dark states in ultracold atoms.

Research unveils new techniques for multi-qubit gates using RF radiation and Rydberg atoms.

Exploring fresh perspectives on hydrogen atom behavior and interactions between its particles.