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 11113-11124 of 19,132
Practical Quantum K-Means Clustering: Performance Analysis and Applications in Energy Grid Classification
Stephen DiAdamo, Corey O'Meara, Giorgio Cortiana, Juan Bernabé-Moreno
Practical Quantum State Tomography for Gibbs states
Yotam Y. Lifshitz, Eyal Bairey, Eli Arbel, Gadi Aleksandrowicz, Haggai Landa, Itai Arad
Prediction and compression of lattice QCD data using machine learning algorithms on quantum annealer
Boram Yoon, Chia Cheng Chang, Garrett T. Kenyon, Nga T. T. Nguyen, Ermal Rrapaj
Preparation of quantum superposition using partial negation
Sara Anwer, Ahmed Younes, Islam Elkabani, Ashraf Elsayed
Preparing ground states of the XXZ model using the quantum annealing with inductively coupled superconducting flux qubits
Takashi Imoto, Yuya Seki, Yuichiro Matsuzaki
Preparing Renormalization Group Fixed Points on NISQ Hardware
Troy J. Sewell, Stephen P. Jordan
Preparing thermal states on noiseless and noisy programmable quantum processors
Oles Shtanko, Ramis Movassagh
Pricing multi-asset derivatives by finite difference method on a quantum computer
Koichi Miyamoto, Kenji Kubo
Prime Factorization Using Quantum Variational Imaginary Time Evolution
Raja Selvarajan, Vivek Dixit, Xingshan Cui, Travis S. Humble, Sabre Kais
Privacy amplification scheme based on composite coding
Wei Li, Shengmei Zhao
Probabilistic computing with p-bits
Jan Kaiser, Supriyo Datta
Probabilistic imaginary-time evolution by using forward and backward real-time evolution with a single ancilla: first-quantized eigensolver of quantum chemistry for ground states
Taichi Kosugi, Yusuke Nishiya, Hirofumi Nishi, Yu-ichiro Matsushita