Latest Articles for Quantum Computing

Exploring how quantum concepts can advance machine learning methods.

A look into symmetric QSP and its role in quantum measurement.

Exploring interactions of photons and qubits in quantum systems.

VCl monolayers reveal unique magnetic and orbital properties important for advanced applications.

New mechanisms enhance security and efficiency in digital communications.

New methods improve speed and accuracy in reading superconducting qubits.

Using quantum algorithms to solve classical steady-state problems efficiently.

GraphDD optimizes dynamical decoupling for better error management in quantum circuits.

ExcitationSolve offers an efficient way to optimize ansätze in quantum chemistry.

A new method combines HPC, quantum computing, and AI for chemistry.

Exploring new methods for improving quantum computing reliability through effective error correction.

Exploring improvements in secure communication through MDI-QKD and DPS encoding.

Enhancing shadow estimation through optimized circuit designs for quantum measurements.

Research on Majorana bound states and quasiparticle poisoning impacts quantum computing.

A study on using neural networks to prepare Schrödinger cat states efficiently.

A study demonstrating universal quantum gates using Gottesman-Kitaev-Preskill codes in trapped ion systems.

New device enhances quantum frequency conversion while reducing noise.

Researchers advance techniques to trap and manipulate strontium atoms for various applications.

This article discusses peephole optimization for better quantum circuit performance.

A new method improving speech recognition while ensuring data privacy.

Improved methods for creating GKP qubits boost quantum computing capabilities.

New insights show cavities can improve energy movement in disordered materials.

Understanding random Kraus operators' role in quantum information transmission.

Exploring the unique properties of Kramers-Weyl fermions in twisted bilayer materials.

New insights into quantum systems using quantum extreme learning machines for information estimation.

This study explores nonstabilizerness generation in quantum systems, focusing on innovative entropy measures.

New techniques improve accuracy and efficiency of quantum calculations.

Quantum computers enhance our understanding of particle interactions and dynamics.

Study shows monoclinic RhBi becomes superconductive under high pressure, revealing new material potential.

This study explores quantum computing techniques for analyzing nuclear resonances.

Study reveals how quantum coherence affects work extraction from quantum systems.

New advancements in quantum error correction enhance reliability in quantum computing.

A look into how parties share information in quantum computing.

Learn how continuations aid in managing quantum computations.

This study presents a new method for controlling bosonic qubits.

Researchers optimize spin qubit movement, reducing errors for scalable quantum computers.

Exploring Majorana bound states and their significance in quantum computing within planar Josephson junctions.

Research into Josephson junctions reveals new insights into topological superconductivity and Majorana modes.

Improving multivariable state preparation using M-QSP for faster financial simulations.

Exploring the potential of silicon nanowires in technology and their behavior at low temperatures.