Latest Articles for Quantum Computing

Exploring hypergraph product codes for effective quantum error correction and fault tolerance.

This article explores a method for designing efficient mixers in quantum computing.

Quantum optimization uses quantum computing to solve complex problems efficiently.

Exploring superselection rules and their impact on quantum error correction methods.

GGA-VQE offers a robust solution for adaptive variational algorithms in quantum computing.

A new method using belief propagation improves quantum error correction reliability.

Scientists use cold atoms in optical cavities for complex problem-solving.

Discover how quantum annealers facilitate string model selection effectively.

Examining the Clifford group and its role in quantum symmetries and operations.

Researchers improve quantum computing accuracy through error mitigation strategies.

NV centers offer new opportunities in sensing and imaging technology.

Discover the unique properties and potential of bi-layer Kagome materials in modern physics.

Examining the effects of acceleration on quantum entanglement and reflected entropy.

New techniques improve photon pair generation for quantum communication and computing.

A novel approach to efficiently prepare entangled quantum states using hybrid computing methods.

Explore the unique interactions of spins at high temperatures and their implications.

Exploring the integration of quantum methods into predictive process monitoring.

A method to create stable spin states using trapped ultracold atoms and Bose-Einstein condensates.

New methods improve accuracy in measuring electron spins for quantum applications.

Exploring quantum coherence in multipartite states within the multiverse framework.

Exploring the impact of non-Hermitian boundaries on quantum states and impurities.

New protocols enhance quantum computing capabilities using innovative techniques and classical optimization.

Examining the role of software analytics in quantum computing.

Research on hole spin qubits in germanium and silicon shows promise for quantum computing.

Nanographenes, especially triangulenes, show promise for advanced magnetic applications.

Researchers develop techniques to cool Yb ions, improving accuracy in experiments.

Research on improving quantum state measurements in noisy environments.

An overview of anyons and their role in topological quantum computing.

Research on ion dynamics in multipole traps reveals insights into cooling techniques.

Investigating how quantum computations can be simulated using classical methods.

New methods improve lifetime measurements of highly charged ions for precision technologies.

Examining the role of mobility edges in single-particle and many-body models.

Learn about the future of secure communication with Quantum Secure Direct Communication.

Exploring how particles behave in random environments through dynamical localization.

This article examines how random measurements affect the behavior of the Toric code.

A look into information reconciliation methods for high-dimensional QKD systems.

Ideal lattices provide security benefits and challenges in cryptographic systems.

Recent findings reveal surprising effects of acceleration on temperature in quantum systems.

Analyzing quantum systems to reveal multipartite entanglement using Quantum Fisher Information.

Researchers create a heralded 3-GHZ state using photons for quantum computing.