Latest Articles for Quantum Physics

The anti-Unruh effect reveals how detectors behave under high acceleration.

Studying the effects of impurities on fermionic matter waves in quantum systems.

Exploring the significance of geometric phase in quantum physics and its applications.

Examining rapid divergence and instability in quantum states.

This article explores how waves behave when encountering junctions formed by multiple wires.

Exploring the unique properties of rotating black holes and their implications.

Research reveals complex behaviors in gold nanoparticle systems under light interaction.

A fresh approach enhances understanding of light and matter interactions.

A study on how boundaries influence particle behavior in quantum systems.

Exploring the relationship between black holes and quantum mechanics through recent theories.

A novel approach enhances research on Bose-Einstein condensates in various environments.

Examining measurement-induced phase transitions in quantum circuits and their implications.

CAL studies ultra-cold gases to explore fundamental physics in microgravity.

Exploring the behavior of heavy Bose polarons in a Bose-Einstein condensate.

Exploring how superconducting qubits enable effective quantum state transfer.

Explore EIT and ATS, two key effects in quantum physics with practical applications.

New method enhances simulations of complex quantum systems effectively.

New insights into particle interactions challenge conventional views in quantum physics.

Researchers uncover complex behaviors in two-dimensional quantum systems through specific measurements.

Exploring how Bell inequalities enhance quantum randomness for secure applications.

Research sheds light on electric current behavior in silicon-doped InAs nanowires.

Harnessing machine learning to optimize gravitational wave detection using squeezed states.

Scientists use microwave radiation to stabilize Rydberg atoms against electric fields.

A new approach to confirm entanglement using thermodynamic measures in quantum systems.

Researchers delve into unique properties of Warped Conformal Field Theories in quantum physics.

Deep learning enhances predictions in quantum Ising models, improving energy calculations.

Quantum learning merges quantum mechanics and machine learning to reshape computing systems.

This study explores time-dependent systems with unique topological features and non-Hermitian effects.

New technique improves accuracy in measuring chromatic dispersion for optical systems.

Study reveals new insights into magnetic states and quantum behaviors in systems.

Analyzing how changes in quantum field theories shape our understanding of spacetime.

Exploring how neutron stars reveal secrets of matter and gravitational waves.

Exploring the connection between inflation and primordial black hole formation.

Examining how fermion-hole pairs behave under random scattering and distance.

Study reveals new superconducting phase influenced by magnetic fields in quantum materials.

Research on PrOs4Sb12 reveals new insights into superconductivity and quantum states.

Examining Hubbard and Heisenberg models in condensed matter physics.

This study examines the relationship between distinct groups of free fermions using logarithmic negativity.

Research sheds light on the behavior of quasiholes and quasiparticles in small lattices.

Enhancing atomic manipulation through composite biased rotations.