Latest Articles for Quantum Physics

New methods in quantum many-body physics show promise in improving particle interaction studies.

Exploring the mysteries of black hole entropy and its connection to quantum mechanics.

This article presents a method for simulating quantum systems in large environments.

Exploring the complexities of non-invertible duality symmetries in quantum field theories.

Examining parity violation during the universe's inflation phase.

Research reveals how iron alters manganese germanium's unique electrical and magnetic properties.

This work discusses numerical methods for simulating open quantum systems and their effectiveness.

ShadowNet combines classical shadows and neural networks to enhance quantum system learning.

A new library aids in simulating two-dimensional quantum systems using tensor networks.

Study reveals how altermagnet orientation influences spin pumping effects.

Exploring the role of gravitational cat states in quantum technologies and correlations.

Learn about chiral quantum walks and their significance in quantum computing.

A look into topological states and their significance in quantum physics.

Scientists manipulate Rydberg atoms to study complex behaviors in quantum physics.

Study reveals complex spin behaviors in dual-atom systems, impacting quantum technologies.

A new method for learning Hamiltonians enhances quantum technology performance.

An overview of the disordered Dicke model's implications for light-matter interactions.

A look into the properties of non-extremal black holes with multiple charges.

Examining the significance of genus-one and elliptic fibrations in string theory.

Researchers uncover methods to certify flexible event ordering in quantum interactions.

Exploring the role of topology in light propagation through unique materials.

Exploring how feedback affects phase transitions in quantum systems.

Research offers new methods for calculating generation functions in quantum field theory.

Researching measurement methods to improve quantum engine efficiency.

Exploring the effects of strain on the magnetic properties of SrRuO.

Hybrid optically-pumped magnetometer enhances magnetic field detection and communication.

Research into chiral superconductivity reveals potential advancements in quantum materials.

A look into Hamiltonians and their role in quantum electrodynamics.

A look at the fascinating behaviors of magnetic materials and their transitions.

New approaches improve insights into cuprate superconductors using the Emery model.

A novel interferometer uses Bose-Einstein condensate for precise measurements of atomic states.

Exploring unique properties of superfluidity in two-dimensional supersolid states.

A look into quantum algorithms and their impact on data predictions.

Research shows plastic deformation can create strong magnetism in SrTiO₃ materials.

Research reveals a method to detect Majorana states using an extra quantum dot.

This article discusses the challenges and advancements in quantum computing integration.

This article examines how interactions affect the SSH model's topological properties.

Researchers reshape black hole theories with black-to-white hole concepts, tackling singularities and information loss.

Research uses machine learning to predict behaviors of quantum systems.

Research uncovers details on excited hyperons, advancing knowledge in particle physics.