Latest Articles for Atomic Physics

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.

Research focuses on improving Rydberg atom bandwidth for better communication technology.

Study examines how collisions affect rubidium atoms' energy states and light emission.

Research reveals how inert gases affect Rydberg atom behavior.

A new atomic oven design optimizes efficiency for quantum technology applications.

Study reveals how electric fields slow superradiant light emission in ultracold Rydberg atoms.

Explores light interactions with two-level atoms in non-LTE conditions.

Researchers study excited states in nitrogen ions using the Hanle effect.

Research reveals properties of beryllium and helium hypernuclei through advanced models.

Exploring key concepts and implications of the Stern-Gerlach experiment in quantum physics.

Rydberg atoms offer high-fidelity gates for reliable quantum computing.

Exploring vortex formation in dipolar Bose-Einstein condensates below critical rotation frequencies.

Rydberg atomic receivers provide new solutions for more sensitive wireless communication.

Researchers enhance quantum circuits by using topological pumping for efficient information transport.

Exploring how defects in optical lattices affect quantum correlations.

Research on trapped ions and ultracold gases enhances quantum computing capabilities.

Measuring hydrogen and antihydrogen transition frequencies reveals fundamental insights into physics.

New research focuses on improving compact optical atomic clocks using strontium atoms.

Researchers advance techniques to trap and manipulate strontium atoms for various applications.

Research focuses on improving the accuracy of optical lattice clocks through innovative methods.

A compact electrode setup effectively cancels stray electric fields in atomic experiments.

A look into the behavior of Bose gases at low temperatures.

Researchers are developing methods to transfer entanglement from Rydberg atoms to photonic states.

Research on muonic atoms sheds light on energy levels and fundamental properties of matter.

Investigating Rydberg atoms' interaction with free electrons for quantum applications.

Scientists study interactions of lithium atoms in cold gas using lasers.

Explore the unique behaviors of Rydberg atoms and their fascinating interactions.

Scientists study Rydberg atoms to unlock secrets of quantum phases and transitions.

Exploring the unique behaviors and properties of heavy atoms in physics.

Exploring the interactions of muonium with light and its significance in physics.

Exploring the behavior of neon in different atomic states and interactions.

Exploring the behavior of halo neutrons and their effects on atomic decay.

Scientists investigate how atoms form molecules at ultracold temperatures.

Van der Waals molecules play a key role in various scientific fields.