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 6097-6108 of 19,132
Learning Gaussian Operations and the Matchgate Hierarchy
Joshua Cudby, Sergii Strelchuk
Learning local equivariant representations for quantum operators
Zhanghao Zhouyin, Zixi Gan, MingKang Liu, Shishir Kumar Pandey, Linfeng Zhang, Qiangqiang Gu
Learning quantum states prepared by shallow circuits in polynomial time
Zeph Landau, Yunchao Liu
Learning State Preparation Circuits for Quantum Phases of Matter
Hyun-Soo Kim, Isaac H. Kim, Daniel Ranard
Learning symmetry-protected topological order from trapped-ion experiments
Nicolas Sadoune, Ivan Pogorelov, Claire L. Edmunds, Giuliano Giudici, Giacomo Giudice, Christian D. Marciniak, Martin Ringbauer, Thomas Monz, Lode Pollet
Learning the closest product state
Ainesh Bakshi, John Bostanci, William Kretschmer, Zeph Landau, Jerry Li, Allen Liu, Ryan O'Donnell, Ewin Tang
Learning the dynamics of Markovian open quantum systems from experimental data
Stewart Wallace, Yoann Altmann, Brian D. Gerardot, Erik M. Gauger, Cristian Bonato
Learning the expressibility of quantum circuit ansatz using transformer
Fei Zhang, Jie Li, Zhimin He, Haozhen Situ
Learning the structure of any Hamiltonian from minimal assumptions
Andrew Zhao
Learning topological states from randomized measurements using variational tensor network tomography
Yanting Teng, Rhine Samajdar, Katherine Van Kirk, Frederik Wilde, Subir Sachdev, Jens Eisert, Ryan Sweke, Khadijeh Najafi
Lecture Notes: many-body quantum dynamics with MCTDH-X
Paolo Molignini, Sunayana Dutta, Elke Fasshauer
Leveraging collective effects for thermometry in waveguide quantum electrodynamics
Aleksei Sharafiev, Mathieu Juan, Marco Cattaneo, Gerhard Kirchmair