Latest Articles for Quantum Physics

Exploring how massive fields influence the early universe through correlators.

This study investigates how cobalt spins in quantum dots respond to light interactions.

Understanding black hole radiation through the moving mirror model reveals complex interactions.

Examining how anisotropy affects quantum systems and information transmission.

Researchers study excitons and magnetic behavior in the material NiPS3.

Research explores manipulation of dark excitons in quantum dots for improved tech applications.

Exploring the potential of quantum sensors for precision measurements.

New methods allow precise control of chiral edge states in the Quantum Hall effect.

A new method to analyze quantum field theories using entanglement.

Exploring photon blockade and its role in advanced optomechanical systems.

Exploring new methods for efficient quantum error correction without measurements.

A fresh approach simplifies the study of complex systems using quantum physics concepts.

Examining the impact and techniques of quantum simulation for open quantum systems.

Combining classical and quantum methods for secure satellite communications.

This article discusses the advantages of using harmonic oscillator staging in quantum simulations.

Investigating the connection between the Jaynes-Cummings and anti-Jaynes-Cummings models.

Research on quasiparticle cooling methods enhances quantum state preparation.

A look into methods for simulating complex quantum systems affected by noise and entanglement.

Research reveals new ways to connect distant quantum systems using cavity magnonics.

New insights into quantum behavior in Bose-Einstein condensates through momentum space Josephson effects.

Researching unique light states for advancements in quantum technology.

A study on how light and matter interact under varying conditions.

A look into how spin vortices behave in Bose-Einstein condensates.

This article reveals how a single photon can affect two places at once.

Explore how fermionic tensor networks deepen our knowledge of quantum systems and particle interactions.

An overview of the links between Navier-Stokes equations and quantum gases.

Our research enhances photon indistinguishability, vital for quantum computing applications.

Examining quantum long-range models and their significance in physical systems.

Exploring how large spins bridge quantum and classical physics.

This study examines phase separation in spin-1 and spin-2 Bose-Einstein condensates.

Exploring the structure and significance of Reflection Equation Algebra in quantum systems.

New machine learning methods enhance photon state analysis for quantum technologies.

Understanding quasiparticles and their interactions can unlock new physics in complex systems.

Exploring how conformal symmetry influences behaviors in quantum gases.

Exploring how Lorentz violation affects black holes and their properties.

A novel way to analyze energy levels and states in quantum systems.

A new method optimizes key rate estimation in Quantum Key Distribution systems.

Researchers focus on stabilizing SPT phases in noisy quantum systems.

Learn how gravitational waves reveal the universe's history post-inflation.

Polarization textures in 2D materials could reshape technology and electronics.