Latest Articles for Quantum Physics

Researchers propose new methods to create point-gap topological phases in quantum materials.

Explore the unique properties and implications of topological orders and anyons.

A look into the unique properties and challenges of quantum spin liquids.

Introducing a sensor that measures multiple light parameters efficiently.

Research highlights how quantum systems reach thermal equilibrium with their environments.

A look at RG flows, critical phenomena, and their relevance in quantum systems.

Exploring Carrollian conformal field theories and their implications for quantum gravity.

Study reveals how interactions affect transitions between Luttinger liquids and Anderson glasses.

A look into magnon interactions and ultra-cold gases for advanced material behavior.

Exploring the unique interactions of graphene through the Casimir effect.

A method for generating entangled photons to enhance secure communication.

A fresh method for enhancing quantum measurement precision using cyclic nonlinear interferometry.

This study examines the effects of negative mass in spin-orbit coupled BECs.

Explore how tiny energy fluctuations create forces between plates in a vacuum.

Exploring the mysteries of strange stars and their potential role in our universe.

Anyons provide unique properties for advancements in quantum computing.

A new mapping connects clock-spin models to fermionic systems for deeper insights.

This study examines timelike entanglement and its connection to spacetime geometry.

Exploring quantum fields in curved spaces challenges traditional physics concepts.

Study reveals unique behaviors of confined states in two-dimensional quasicrystals.

Examining UV divergences and their implications in supergravity research.

Exploring hybrid approaches for better problem-solving in maze navigation using quantum computing.

A look at how microcanonical projections help study quantum systems and their energy behavior.

A fresh approach to understanding quantum mechanics and spin behavior.

This article examines how squeezing affects topology in quantum systems.

Investigating relaxation processes in cavity quantum electrodynamics for advanced technologies.

Exploring how electron interactions shape edge states in materials.

This article examines entanglement properties in driven quantum systems, focusing on the QSSEP model.

Scientists investigate magnon squeezed states using hybrid systems to advance quantum technologies.

Study on photonic molecules made from ring quantum cascade lasers for enhanced sensing applications.

Exploring the interplay of superconductors and charge carriers for advanced quantum technologies.

Exploring the connection between particle spin and their fundamental properties.

Research shows adding different atoms can stabilize complex vortex structures in superfluids.

A closer look at bipartite states with maximally mixed marginals in quantum systems.

A look into the Quantum Hall Effect and its implications for advanced technologies.

Research on stopped polarization pulses reveals new ways to manipulate electrons in quantum wells.

Quark stars may hold secrets about matter in extreme conditions.

Scientists develop hyper-entangled photons for advanced communication and computing technologies.

This study examines how two accelerating detectors influence quantum entanglement.

Research delves into kagome lattices and their unique superconducting properties.