Trapped-Ion Quantum Computing
19,119 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 2077-2088 of 19,119
Quantum Chaos and Quantum Information: Interactions and Implications
Arul Lakshminarayan, Karol Życzkowski
Quantum Chaos in Phase Space
Martina Hentschel
Quantum chemistry based on classical mechanics inspired by simulated bifurcation
Fumihiko Aiga, Hayato Goto
Quantum Chemistry-Driven Molecular Inverse Design of Stable Isomers with Data-Free Reinforcement Learning.
Calcagno F, Serfilippi L, Franceschelli G, Garavelli M, Musolesi M, Rivalta I
Quantum circuit complexity and unsupervised machine learning of topological order.
Che Y, Gneiting C, Wang X, Nori F
Quantum Circuit Cutting: Complexity and Optimization
Yuval Idan, Eitan Zahavi, Elad Mentovich, Eliahu Cohen, Shmuel Zaks
Quantum circuit design from a retraction-based Riemannian optimization framework
Zhijian Lai, Hantao Nie, Jiayuan Wu, Dong An
Quantum circuit design via dynamic Pauli constraints
James R. Wootton, Merlin Incerti-Medici, Daniel Bultrini, Pierre Fromholz
Quantum circuit partition as a maze: emerging percolation transition via path finding
P. Zentilini, M. Guatto, F. Preti, D. Arya, F. A. Cárdenas-López, F. Motzoi, E. Prati
Quantum Circuit Partitioning For Effective Utilization of Quantum Resources
Connor Howe, Cristina Radian, Justin Woodring, Vardaan Sahgal, Brian J. McDermott
Quantum Circuits as a Dynamical Resource to Learn Nonequilibrium Long-Range Order
Fabian Ballar Trigueros, Markus Heyl
Quantum classification and search algorithms using spinorial representations
Lauro Mascarenhas, Vinicius N. A. Lula-Rocha, Marco A. S. Trindade