Latest Articles for Quantum Physics

Exploring the bonding and behavior of transition metal dichalcogenides through quantum loops.

Research reveals connections between Shapiro steps and ultracold atomic behavior.

Explore how hexagonal lattices impact particle behavior in quantum graphs.

Machine learning techniques are enhancing simulations of quantum spin systems using Fourier Neural Operators.

Exploring the intriguing properties of antiferromagnetic dimer systems in quantum physics.

Examining how electrons move in disordered Lieb lattices.

A look at light-matter interaction through the lens of the Quantum Rabi Model.

Research reveals how light alters material properties at the quantum level.

A new method helps uphold gauge invariance in quantum simulations, reducing errors.

Discover how self-testing verifies quantum entanglement without relying on internal systems.

Exploring the dynamics of particles in double-well potentials and their interactions.

Examining complex magnetic behaviors and phase transitions in correlated materials.

Research highlights the effects of layered materials on superconductivity and magnetism.

A study of quasiperiodic plates and their electromagnetic interactions.

This article looks at wormholes and modified gravity theories that may allow their existence without exotic matter.

Examining how environmental arrangements impact quantum system simulations.

Improving measurement precision in physics using squeezed states in atom interferometers.

Discover how quantum geometry influences the behavior of materials.

Exploring how dynamical chiral spin liquids respond to periodic driving frequencies.

Research shows how carbon nanotubes can control electron flow.

Researchers tackle motional dephasing in quantum technologies using optical dressing.

Analyzing how charging energy affects electron behavior in small electronic systems.

Exploring interactions of photons and qubits in quantum systems.

Researchers study the transition between two fascinating states in rhombohedral graphene multilayers.

A study on scalaron's role in dark matter and the influence of trace anomaly.

A breakthrough method enhances Rydberg atoms for wide-band RF signal detection.

Researchers are improving methods to stabilize complex quantum states for technology applications.

Research enhances understanding of particle behavior in quantum gases involving defects.

Examining how cosmic strings influence current density in vacuum states.

Enhancing shadow estimation through optimized circuit designs for quantum measurements.

An overview of Metric-Affine Gravity and its implications for trace anomalies in quantum field theory.

Examining how light bending provides insights into black holes and cosmic structures.

Examining how dark matter and dark energy coexist and interact in the universe.

This article discusses how electrons can localize in zero flux situations.

Exploring the role of tiny black holes in dark matter.

Examining how moving detectors reveal insights into quantum gravity and spacetime.

Exploring the complexities of non-Hermitian quantum systems and their implications.

Research shows magnetic fields enhance the stability of quantum electron solids.

This study explores nonstabilizerness generation in quantum systems, focusing on innovative entropy measures.

Research reveals fractional behaviors in superconducting qubits using synthetic magnetic fields.