Physics - Quantum Physics

This article explores new methods for measuring distances between photons with high precision.

Research focuses on strong coupling between photons and mechanical systems for future technologies.

A look into the fascinating world of quantum phase transitions and superradiance.

A look at how the Kirkwood-Dirac distribution aids in quantum system analysis.

A look at how fluctuations impact various physical systems and their behavior.

Exploring how ICO improves accuracy in quantum measurements amid noise.

Researchers find ways to use noise for better quantum information transfer.

Examining the limits of understanding quantum gravity in our universe.

New methods simplify the study of quantum systems interacting with their environments.

Exploring the performance gains of Boson Sampling simulations using data-flow engines.

A look at how light affects matter and phase transitions through the Rabi model.

A look into the unique properties and applications of superconductors in technology.

Exploring the journey from skepticism to acceptance in quantum research.

New methods for improving quantum error correction show promise for reliable quantum computing.

Exploring dual recycling to enhance weak measurements and their applications.

This study reveals gauge dependence in spontaneous radiation from atoms, affecting applications like atomic clocks.

Exploring the integration of quantum dots and atomic ensembles for future technologies.

A hybrid algorithm merges classical and quantum computing to advance railway dispatching efficiency.

Exploring a new method for solving complex optimization problems using quantum computing.

A new method for simulating larger quantum systems with reduced complexity.

This article explores how mirror movement affects entropy in quantum systems.

Examining how quantum systems interact and influence each other through signalling.

Quantum thermal machines blend quantum mechanics with practical energy solutions.

This article examines quantum vacuum energy in a rotating one-dimensional ring system.

Exploring the connection between information storage and energy limits.

Exploring how quantum computers may solve complex linear differential equations efficiently.

Researchers unveil cobalt defects in WS2 for next-gen quantum technologies.

Research reveals how edge modes maintain wave direction despite disturbances.

Optimal control theory helps enhance the performance of quantum gates in noisy environments.

New phase shift rules address limitations in estimating derivatives in quantum circuits.

A look at weak values and how they affect our understanding of particle presence.

Research reveals complex dynamics of tunneling and its implications in quantum mechanics.

Research on quantum data compression aims to optimize storage and transmission.

This article discusses a self-adjoint momentum operator for particles in restricted areas.

A new method enhances quantum learning for better classification tasks.

A study of how external influences impact entanglement in Ising chains.

Research shows promise for quantum computing reliability using the 832 color code.

Research on quantum dots reveals their potential for advanced technologies and communication.

Combining classical and quantum approaches could enhance simulations of complex systems.

Learn how quantum computing aids eco-friendly fleet transitions.