Latest Articles for Quantum Physics

This article examines the behavior of four interacting spins arranged in a ring.

Explore how quantum scattering affects particle states and entanglement.

TDMVCC enhances our ability to study molecular behavior over time.

New techniques create band gaps in exciton-polariton systems using slab waveguides.

Study reveals complex boson behaviors in a two-chain setup.

Exploring dipole-conserving systems and their unique properties in quantum mechanics.

Giant emitters reveal unique behaviors in non-Hermitian environments, impacting quantum technologies.

Exploring the role of coherence in improving quantum thermal machine efficiency.

A look at how materials change states in quantum circuits.

A look into linear logic's unique approach to reasoning and resource management.

Exploring the role of codim-2 branes in black hole information recovery.

Exploring the unique properties of neutron stars and their strong magnetic fields.

Exploring the unique properties and applications of topological superconductors in modern technology.

Research reveals important interactions of heavy quarks in high-energy collisions.

Examining the emission dynamics of near-extremal Nariai black holes.

A novel technique for studying complex particle interactions at the quantum level.

Research enhances quantum sensing by improving signal detection in noisy environments.

A look into quantum systems and their behavior away from thermal equilibrium.

A fresh approach to understanding topological materials using current noise measurements.

A look at the lattice-symmetries package for quantum many-body physics.

Research reveals new details about quasiholes using ultracold atomic systems.

Recent experiments on cesium-lithium mixtures reveal unexpected stability and sound behavior.

Examining the GKSL equations and their influence on quantum systems.

Research reveals insights into quantum phase transitions using the spin-boson model.

New insights into the behavior of SrTi₁-xVxO₃ through doping and electron interactions.

Hamiltonian learning advances quantum systems understanding, focusing on steady states and degeneracy.

New methods simplify the study of ultracold molecular collisions, impacting quantum technologies.

Exploring TDHF methods and quantum computing for dynamic electron system simulations.

Research reveals connections between non-stabilizerness and entanglement in quantum systems.

Study shows how entanglement can return in qutrits despite challenges.

Scientists study bosons in lattices, revealing stabilization through disorder.

Research reveals exciting properties of bulk alternating twisted graphite.

A study of how HBT correlations affect telescope sensitivity and design.

A new method for improved quantum state measurements using many-body localization.

Examining the role of axion fields in string theory and cosmology.

Exploring energy state transitions in a three-level bow-tie model.

This study focuses on atom correlations to understand ultracold gas behavior.

Exploring the role of response functions in quantum physics and their practical applications.

Examining how finite temperature influences quantum materials and phase transitions.

Exploring the synchronization of spins in quantum systems opens doors to innovative technologies.