Latest Articles for Quantum Physics

A novel approach improves ground state preparation for fermionic systems.

Exploring the implications of negative temperatures in quantum thermodynamics.

New insights into exciton behavior in Mott insulators could transform material properties.

Research reveals universal behaviors in autocorrelation through Krylov complexity analysis.

New insights into particle interactions and configurations in TMD materials.

Exploring magnetic behavior in moiré materials through electron movement.

New approach to study massless particles under complex forces.

Research on speeding up quantum state preparation methods shows promise.

New methods in lattice models enhance our grasp of chiral theories.

Researchers investigate dipolar supersolids, merging solid and superfluid properties for new insights.

New methods enhance measurement fidelity for nuclear spin qubits in ytterbium atoms.

Study examines the impact of interactions on particle behavior in quantum systems.

This study examines integrable spin chains and their implications for quantum computing.

Researching spin dynamics reveals insights into magnetic and electric properties of materials.

Investigating behaviors of one-dimensional bosonic rubidium atom systems.

A new model clarifies information dynamics in quantum systems.

Researchers find ways to control the spin of polariton condensates using lasers.

Microwave impedance microscopy reveals material properties at low temperatures and quantum levels.

Exploring the unique properties of excitons in transition metal dichalcogenides.

A new model explains how rotating molecules interact with their environment.

A detailed look at the critical interface of GaP and Si materials.

A fresh method enhances quantum control using superoscillation and sequential selections.

Researching edge states in quantum systems reveals insights for future technology.

Exploring the role of quantum discord in understanding black hole information.

New spectroscopic techniques enhance understanding of quantum materials.

A novel approach enhances single photon production for quantum applications.

This article explores deconfined quantum criticality and its impact on material behavior.

Researchers use Hermite-Gaussian beams to excite difficult atomic transitions in Yb ions.

Exploring Horndeski-like gravity and its effects on cosmology.

Researchers use multi-loop methods to measure complex non-Abelian gauge fields accurately.

A deep dive into quartet superfluidity and its implications in quantum systems.

A look at non-Hermitian models and their significance in modern physics.

Exploring how trapped-ion systems could enhance our understanding of quantum phenomena.

Study reveals complex interactions in Rydberg atoms leading to non-ergodic behaviors.

Examining how dynamical localization and thermalization shape quantum system behaviors.

Exploring the phenomenon of particle pair creation in strong electric fields.

New findings in the CMB challenge our understanding of the universe's evolution.

Exploring the potential of optomagnonic systems for quantum teleportation.

Scientists study quantum entanglement and Bell inequalities using high-energy collisions at the LHC.

This study investigates spin interactions in connected double quantum dots for quantum computing.