Latest Articles for Quantum Computing

This article examines quantum forgery attacks on encryption schemes COPA, AES-COPA, and Marble.

A new algorithm enhances quantum learning with imperfect data.

New algorithm simplifies construction of special orthogonal matrices for quantum states.

Examining the role of quantum correlations in information processing and security.

Researchers are making quantum algorithms more reliable with a focus on deterministic solutions.

Exploring privacy-preserving techniques for secure price negotiations.

Quantum computing challenges traditional encryption methods with advanced attack strategies.

A new method for manipulating edge states enhances quantum operations and information transport.

Exploring how memory impacts data transformation in classical and quantum agents.

Researchers reveal profound connections between dimer models and aperiodic spectre tiling.

Researchers link Bethe Ansatz to quantum circuits for enhanced computational methods.

A study on parafermion zero modes in superconducting hybrid structures and their technological significance.

New method improves manipulation of nuclear spins in NV centers for enhanced measurements.

Anyon particles exhibit fractional statistics in two-dimensional systems, impacting quantum physics.

A look into quantum memory's importance and applications in computing.

Hopf semimetals offer groundbreaking properties for materials science and technology.

Antimicrobial peptides show potential for treating infections and complex health issues.

Exploring semidefinite optimization techniques within the framework of -algebras.

Exploring efficient methods for learning RBMs using quantum algorithms.

Research focuses on improving spin qubit performance through adaptive estimation methods.

Examining the significance of semi-Clifford gates in improving quantum computer efficiency.

A new framework helps classify unique states of matter in quantum physics.

New strategies enhance quantum error correction for reliable computing.

A new simulation method enhances fault tolerance in quantum computing circuits.

Research focuses on improving controlled photon production for advanced quantum applications.

Discovering the potential of nickelate superconductors in advancing technology.

Quantum dots show promise in technology with focus on fine structure splitting.

Research reveals new understanding of non-invertible symmetries in topological quantum field theories.

Research explores parameter trainability in qudits using the SNAP-Displacement protocol.

SliQ enhances similarity detection using quantum computing for better efficiency.

Quilt improves multi-class classification on today’s quantum machines.

Quantum neural networks offer new approaches for processing information in artificial intelligence.

A method reduces crosstalk in quantum computing, improving accuracy without added complexity.

Exploring improved methods for error correction in quantum computing.

COW-QKD offers a reliable method for secure key distribution using quantum mechanics.

Examining charge-density waves and their implications in transition metal dichalcogenides.

A new method simplifies calculating quantum rate-distortion functions for improved efficiency.

Analyzing twirling groups for effective noise control in multi-qubit controlled phase gates.

Exploring the role of Hamming-weight-preserving circuits in enhancing quantum machine learning.

Evaluating quantum computers through advanced benchmarking methods is key to improving reliability.