Latest Articles for Quantum Physics

Study reveals unique phases of matter for hard-core bosons in a zigzag ladder.

Exploring how many-body systems resist thermalization and retain their localized states.

Examining how photons interact with quantum dots for advancing technologies.

Exploring how small changes in CFTs influence quantum behaviors.

Examining unique behaviors in quantum systems driven by periodic changes.

Exploring the connection between complexity in quantum states and holography in the SYK model.

Hybrid metal-semiconductor devices reveal complex electron behaviors under varying conditions.

Discovering new methods to study complex interacting particle systems.

A look into the fascinating world of quantum spin liquids and their unique properties.

New methods improve predictions of complex quantum systems using machine learning.

New findings on quantum oscillations reveal insights into electronic materials and quasiparticle behavior.

A look into quantum field theory and the significance of correlation functions.

Researchers develop methods to control photon behavior using quantum simulators.

Exploring the link between quantum discord and decision-making in game theory.

Research shows how environments can enhance energy transport in quantum systems.

Study reveals energy and information links in quantum processes.

Exploring how twirled worlds challenge our understanding of measurement in quantum physics.

Researchers enhance control over neutral atoms using Rydberg atoms in lattice structures.

This article explores quantum chaos via correlation functions and various models.

Examining the behavior of entanglement in the context of de Sitter space.

CoTra offers insights into classifying quantum phases and correlations.

Examining the unique properties of quasiparticles and their fractional statistics.

Researchers use TD-SCHA to better simulate quantum behaviors in materials, focusing on strontium titanate.

Research focuses on improving electrical contacts to enhance quantum computing.

Examining the Petz map's role in quantum information recovery across various phases.

Research reveals new insights into particle interactions in confined Fermi gases.

Examining how quantum environments shift between heat baths and work reservoirs.

A new method improves molecular beam studies with deep-ultraviolet light.

A look into quantum phase transitions and innovative methods for studying them.

Exploring how impurities affect unique behaviors in non-Hermitian systems.

New methods improve generation of entangled states in quantum networks.

An innovative approach enhances the study of quantum many-body systems.

Research reveals how energy moves in quantum systems using advanced simulations.

Explore the concept of bosonic holes and their implications in quantum systems.

An overview of Gaussian integrals in quantum field theory and their significance.

Research explores spin-charge dynamics in doped quantum spin liquids for advanced materials.

Researchers study quantum spin liquids and their implications for future technologies.

TeNPy offers tools for simulating complex quantum systems using tensor networks.

Research reveals how electric and magnetic fields affect quantum materials.

Examining how noise impacts quantum teleportation methods and their effectiveness.