Latest Articles for Quantum Physics

A look into the uniform electron gas and its significance in quantum mechanics.

Examining how pair-flip constraints slow thermalization in particle systems.

Exploring the role of mean force Gibbs states in quantum interactions and dynamics.

Investigating how initial conditions affect ion-Rydberg atom collisions.

Researchers study excitons in layered materials for advanced quantum technologies.

Overview of machine learning applications in classifying quantum states.

Research reveals methods to manipulate the phases of InAs/GaSb materials using light and electric fields.

Learn about measuring multiple qubits and their implications in quantum systems.

This article discusses how non-Gaussianity impacts the early universe and cosmic phenomena.

A study of quark interactions and their impact on neutron stars.

Exploring how light interacts with charged Bose-Einstein condensates.

A sensor detects small electric fields at atomic levels, improving material research.

Researchers reveal how light controls losses in Fermi gases, enhancing quantum study.

Examining low-energy dynamics of molecules near conical intersections.

Scientists investigate unique properties of ultracold gases and their implications for quantum mechanics.

A new method combining feedback and counterdiabatic techniques improves quantum state preparation.

Research on entangled electrons opens new pathways for quantum technologies.

New methods improve neural quantum state optimization using decision geometry techniques.

Research advances understanding of ultracold gases and unique superfluid states.

Researchers enhance understanding of fractionalized excitations in quantum magnets through advanced spectroscopic techniques.

This study examines how impurities move and interact in complex environments.

Research reveals low-energy transitions in CeAgGe linked to crystal electric fields.

Research on FAPbI3 nanocubes reveals new insights into excitons and material properties.

Examining the role of FM string order parameter in topological phase transitions.

A fresh approach simplifies studying complex quantum entanglement.

Integrating classical chaos concepts to manipulate ultracold quantum systems effectively.

A new method enhances control over ion interactions in quantum systems.

Exploring how memory alters interactions in infrared finite scattering theory.

Investigating how magnetic fields alter light behavior in unique Dirac materials.

New light source enhances time-resolved experiments for studying quantum materials.

A look into the behavior of interacting quantum systems and their applications.

Researchers analyze Neural Quantum States to improve quantum system modeling.

This research explores the potential of quantum antiferromagnets in next-gen data storage technology.

Exploring the role of disorder in Kitaev spin liquids and their unique properties.

Study explores QGS in 3D superconductors using MoTiN films' unique electrical properties.

Investigating how magnetic impurities influence superconducting behavior and quantum effects.

New methods enhance efficiency and accuracy in matrix logarithm computations.

Exploring the interaction between disorder and topological properties in materials.

Examining how specific interactions affect quantum behavior in harmonic oscillators.

Scientists study the anti-Pfaffian state using quantum point contact techniques.