Trapped-Ion Quantum Computing
19,132 papers
Trapped-Ion Quantum Computing Research Context
This Quantum Articles category organizes published quantum research papers so readers can browse focused work by topic, source, and year.
Showing 9901-9912 of 19,132
Quantum optimization with arbitrary connectivity using Rydberg atom arrays
Minh-Thi Nguyen, Jin-Guo Liu, Jonathan Wurtz, Mikhail D. Lukin, Sheng-Tao Wang, Hannes Pichler
Quantum Otto engine with quantum correlations
Yang Xiao, Dehua Liu, Jizhou He, Yongli Ma, Zhaoqi Wu, Jianhui Wang
Quantum Phase Processing and its Applications in Estimating Phase and Entropies
Youle Wang, Lei Zhang, Zhan Yu, Xin Wang
Quantum Phase Recognition using Quantum Tensor Networks
Shweta Sahoo, Utkarsh Azad, Harjinder Singh
Quantum Policy Gradient Algorithm with Optimized Action Decoding
Nico Meyer, Daniel D. Scherer, Axel Plinge, Christopher Mutschler, Michael J. Hartmann
Quantum Power Flows: From Theory to Practice
Junyu Liu, Han Zheng, Masanori Hanada, Kanav Setia, Dan Wu
Quantum representation of finite groups
Ruge Lin
Quantum Reservoir Computing Implementations for Classical and Quantum Problems
Adam Burgess, Marian Florescu
Quantum Routing for Emerging Quantum Networks
Wenbo Shi, Robert Malaney
Quantum Search Algorithm for Binary Constant Weight Codes
Kein Yukiyoshi, Naoki Ishikawa
Quantum sensing with tunable superconducting qubits: optimization and speed-up
Sergey Danilin, Nicholas Nugent, Martin Weides
Quantum Sensor Network Algorithms for Transmitter Localization
Caitao Zhan, Himanshu Gupta