Latest Articles for Quantum Physics

Exploring photon addition and subtraction in quantum physics.

Research on three-level atoms and their interaction with light reveals complex phase behavior.

A look into 3D Chern-Simons theories and their significance in modern physics.

Explore the importance of quantum coherence and its impact on advanced technologies.

Investigating the fascinating phenomena of the quantum Hall effect and its implications.

Explore how quantum learning machines operate and their potential benefits.

Study reveals how electric fields prevent energy loss during molecular collisions.

Exploring how measurements differ based on observers in quantum mechanics.

New techniques enhance simulations of quantum states in materials using machine learning.

Explore the key concepts of quantum measurement and its implications on physics.

Examining atomic boson sampling and its implications for quantum computing.

This study examines topological states under environmental influence and their potential for quantum technologies.

A new approach to efficiently estimate quantum states using minimal measurement bases.

A look into how matter behaves in neutron stars and the role of gravitational waves.

Research highlights the potential of 2D materials for efficient entangled photon production.

A look into the role of singularities in evaluating Feynman integrals for particle interactions.

Exploring the unique properties of chiral gauge theories in two dimensions.

Research reveals the impact of strong electric fields on positron emission from vacuum states.

Exploring how charge density influences symmetry in quantum systems.

Exploring the role of trapped ions in simulating fundamental gauge theories in physics.

Researching cold atoms' behavior under gravity in space.

Research reveals new findings on quantum dots and their electron behavior.

Research on exotic low-mass fields could change our understanding of the universe.

Research explores entanglement management in ultracold dipolar atoms for quantum technology.

LQC offers insights into early Universe anomalies in CMB data.

Combining branching random walks and Metropolis sampling enhances quantum simulations.

Investigating the fascinating properties and roles of black holes in the universe.

A new error correction method improves measurements in ultracold atom quantum simulators.

This research studies how entanglement changes over time in many-body systems.

A look at the Emergence Proposal and its implications for quantum physics.

Investigating interactions that persist over large distances in quantum systems.

Exploring the unique properties and implications of ultralight dark matter in the universe.

Investigating the stability and decay of edge zero modes in the transverse field Ising model.

Applying magnetic fields reveals new behaviors in unique materials known as Dirac fermions.

Learn about tunneling splittings and their applications in molecular behavior.

Investigating the role and behavior of dark matter in the universe.

Researchers examine how parity anomalies affect particle behavior in materials.

A look into how Petz recovery maps help regain information in quantum systems affected by noise.

Study reveals unique defect patterns in long-range quantum systems undergoing slow transformations.

The anti-Unruh effect reveals how detectors behave under high acceleration.