Latest Articles for Quantum Computing

Benchpress measures the efficiency of quantum software development kits for better performance.

Key methods for measuring how close quantum states are to desired outcomes.

Bilayer graphene shows promise for valleytronics, enabling new electronic technologies.

Exploring new methods for stabilizing laser frequencies using advanced modulation techniques.

This article studies how symmetry returns in spin chains after disturbances.

Research sheds light on anyon behavior in fractional quantum Hall states.

New technique simplifies the creation of GKP states in optical systems.

Exploring the future of data and communication through advanced satellite networks and quantum computing.

Exploring quasiparticles reveals insights into complex systems and quantum behavior.

Research shows diverse circuits enhance quantum computing reliability.

New techniques in managing quantum systems enhance density matrix calculations.

New method improves MRI analysis for dementia diagnosis using classical and quantum techniques.

A look into the interplay of quantum and classical dynamics.

Researchers create controllable 2D quantum dot arrays for quantum computing applications.

Researchers achieve high-fidelity operations with spin qubits in silicon.

A deep dive into quasiperiodic functions and their implications in modern physics.

Time crystals could change the landscape of quantum computing.

New compact coupler design improves efficiency and minimizes size in photonic applications.

Exploring magnon dynamics in antiferromagnets for advanced technology applications.

Examining the link between piezoelectricity and superconducting qubit performance.

MAGIC scheme offers improved control in quantum computing with trapped ions.

ZZZY codes improve error correction in quantum computing for asymmetric channels.

An overview of Matrix Product States and their role in quantum state learning.

Researchers combine trapped ions and neutral atoms to enhance quantum computing methods.

Explore how memory influences the behavior of quantum systems.

A new method balances precision and efficiency in solving complex optimization problems.

Research merges evolutionary algorithms and quantum computing to tackle the Max-Cut problem.

A novel model combining VAE and QWGAN improves image quality and variety.

Silq simplifies quantum programming with user-friendly features.

This study explores using quantum methods to improve Higgs boson identification.

New methods improve predictions for materials with strong electronic interactions.

Investigating how quantum states maintain spectral localization over time.

A novel approach improves efficiency in preparing quantum ground states.

Exploring thermalization processes in open and isolated quantum systems.

A new approach enhances fraud detection using quantum computing and SVM models.

A compact electrode setup effectively cancels stray electric fields in atomic experiments.

A novel CNOT gate using qudits boosts quantum computing capabilities.

QHyper simplifies the use of quantum computing for combinatorial optimization tasks.

A framework for analyzing concurrent programs with probabilistic outcomes.

This article examines random tensor networks to understand quantum state behavior.