Latest Articles for Quantum States

Exploring how Stabilizer Renyi Entropy reveals phase transitions in quantum states.

Recent developments improve speed and efficiency in quantum circuit simulations.

Quantum batteries may change how we store and use energy.

Exploring how entangled states improve measurement precision in quantum technologies.

Research on how photons can enhance interactions with superconducting qubits for quantum computing.

Examining the role of bosons in enhancing quantum computational abilities.

New protocols enhance security and efficiency in quantum digital signatures.

A look at combining quantum and classical computing for improved machine learning.

Multicore fibres enhance quantum communication by transmitting signals with low interference.

Understanding the role of KD distributions in identifying quantum states.

An overview of how quantum information is transmitted and manipulated.

A novel approach uses quantum states to compare private information securely.

Research reveals how CMI behaves in complex quantum systems and its relevance to entanglement.

This article examines a new method for controlling quantum states over short periods.

Explore how Lorentz boosts affect quantum coherence in various particles.

Examining how rubidium atoms and KRb molecules interact at ultracold temperatures.

This method predicts quantum states efficiently using quantum circuits.

A look into how gravity affects quantum measurements.

Exploring quantum phase estimation using a particle in a magnetic field.

Innovative techniques improve understanding of electron behaviors and interactions in materials.

Exploring polymorphism's role in math and physics across classical and quantum systems.

A new approach to quantum money using cloud technology for practical use.

SeqHT optimizes quantum simulations by simplifying complex calculations for better results.

Exploring Quantum Local Differential Privacy to safeguard quantum data.

A look at how quantum mechanics influences guessing and information retrieval.

Examining the significance of bit-flip errors in quantum computing systems.

A novel method enhances data representation for quantum computers in machine learning.

Connecting quantum and classical computing for advancing quantum field theory analysis.

Introducing an efficient way to measure nonlinear quantum properties with fewer resources.

Discover the potential of Kramers-Kronig detection in secure quantum communication.

Exploring the connection between complexity in quantum states and holography in the SYK model.

CoTra offers insights into classifying quantum phases and correlations.

A developed algorithm reduces resources needed for estimating quantum state properties.

Exploring quantum states in Kerr-Newman black holes with closed timelike curves.

This study explores quantum computing's role in simulating nuclear processes.

A new algorithm improves optimization techniques for data compression and quantum states.

Quantum discord reveals critical correlations in quantum systems, expanding our understanding of quantum mechanics.

A method allows simultaneous measurement of properties in two Bose gases.

Exploring the intersection of quantum mechanics and gravity through spacetime dynamics.

Learn the basics of particle behavior in quantum mechanics.