Latest Articles for Quantum Physics

Exploring different ideas about how the Universe began and evolved.

This article examines the relationship between holographic entanglement and RG flow in quantum systems.

Exploring the concept of First Passage Time in quantum measurements.

Research combines techniques to improve measurement accuracy using spin-squeezed states.

Research highlights the unique properties of topological insulators using cold atoms.

Exploring the construction of TQFTs using ribbon categories and their implications.

A look into combinatorial quantum field theory and its applications.

Bell inequalities shed light on quantum physics and entangled states.

A look into observational entropy and its impact on quantum measurements.

Researchers examine how light interacts with topological materials and affects electronic phases.

NANOGrav uncovers a background of gravitational waves linked to supermassive black holes.

Research reveals key insights into charge order and magnetism in FeGe.

Examining the role of Bures geodesics in quantum metrology and state evolution.

A deep learning approach enhances Hamiltonian reconstruction for quantum simulations.

Research on topological insulators and magnetic materials reveals new electronic possibilities.

A new method for secure online transactions using quantum technology to protect buyers and sellers.

Understanding vortices and defects in superconducting nano-bridges for advanced applications.

This article discusses the relation between Berry curvature and excitons in material science.

Explore how primordial black holes may have formed after the Big Bang.

Studying quantum phase transitions reveals complex behaviors in long-range interacting systems.

Examining the interactions and properties of de Sitter and AdS spaces.

Cable bacteria demonstrate unique electrical conductivity influenced by quantum effects.

Study reveals off-diagonal interactions impact quantum magnetic materials significantly.

Study examines how pair hopping affects phase transitions in spinless fermions.

Exploring neural networks' role in representing complex quantum many-body states.

Exploring superconductivity in twisted trilayer graphene and its unique properties.

Advancements in quantum metrology promise improved measurement accuracy in various fields.

A look at Ramsey interferometry's application in three and five-level Bose-Einstein condensates.

Examining Krylov complexity in chaotic open quantum systems and its links to black holes.

This paper examines quantum communication through pseudo-telepathy and compares it to classical methods.

Exploring the effects of electric fields on the QCD model and quark-gluon plasma states.

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.