Latest Articles for Quantum Physics

A simplified approach enhances the study of topological orders and anyons in quantum physics.

An exploration of UV divergence cancellations in supergravity through nonlinear local supersymmetry.

Researchers study spin liquids and their behavior after quantum quenches for potential applications.

An overview of spin liquids and their intriguing magnetic properties.

New method improves efficiency in handling multi-photon sources.

New tools developed for studying quantum magnetism using ultra-cold Dysprosium atoms.

Investigating magnon condensation in quantum magnets with spin-orbit coupling and external fields.

Researchers develop innovative techniques for generating nuclear spin cat states.

A look into stabilizer entropy and its impact on quantum system complexity.

A new thermal state improves temperature readings in quantum systems.

Reduced basis methods streamline analysis of complex quantum systems.

A look into the Kitaev honeycomb model and its implications for quantum liquids.

Exploring the interaction of light with structured waveguides and its potential in quantum technology.

Investigating how weak measurements influence quantum states with higher-form symmetries.

Research on nitrogen-vacancy centers improves NMR sensitivity through polarization transfer techniques.

This study focuses on improving measurements of qubit information loss.

Researchers are connecting fuzzy spheres to create a new model of quantum space.

Researchers investigate how quantum liquid filaments turn into droplets under various conditions.

This article examines how T-T* deformation alters correlation functions in quantum field theories.

Research on quantum systems improves measurement precision across various fields.

Researchers explore braided structures to address challenges in noncommutative quantum field theories.

A comprehensive overview of quantum Fisher information and its significance in various fields.

Investigating classical spin liquids reveals new insights into magnetic systems and potential technologies.

Exploring the impact of environmental interactions on quantum systems.

Scientists study excitons and polaritons for efficient movement and future technology.

This article explores the unique behaviors of bilayer superconductors and their potential applications.

Explore the intriguing world of quantum entanglement and its implications for science.

Exploring strategies in games using principles of quantum mechanics.

An overview of quantum chaos, focusing on butterfly effect and pole-skipping phenomena.

Research reveals key dynamics of edge modes in fractional quantum Hall effect systems.

Examining dark energy's influence on the universe's accelerating expansion.

Research reveals exact solutions for a modified Bose-Hubbard model with unidirectional hopping.

Edge states facilitate current flow, revealing insights into advanced electronic materials.

Exploring scalar mesons' behavior in extreme environments reveals crucial interactions among fundamental particles.

This study tests superfluid effective field theory using Monte Carlo simulations.

Investigating the unique properties of twisted bilayer MoTe and its potential applications.

Exploring the behavior and applications of spin-1 particles in quantum systems.

A novel method to analyze approximate quantum states using random measurements and machine learning.

Study of Luttinger liquids reveals complex particle dynamics and phase transitions.

Investigating UV cutoffs and their influence on particle behavior in quantum field theory.