Trapped-Ion Quantum Computing
18,802 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 2953-2964 of 18,802
Classical and quantum electromagnetic momentum in anisotropic optical waveguides
Denis Kopylov, Manfred Hammer
Classical Noise Inversion: A Practical and Optimal framework for Robust Quantum Applications
Dayue Qin, Ying Li, You Zhou
Classical Optimization Strategies for Variational Quantum Algorithms: A Systematic Study of Noise Effects and Parameter Efficiency
Tomáš Bezděk, Haomu Yuan, Vojtěch Novák, Silvie Illésová, Martin Beseda
Classical reservoir approach for efficient molecular ground state preparation
Zekun He, Dominika Zgid, A. F. Kemper, J. K. Freericks
Classical shadows for sample-efficient measurements of gauge-invariant observables
Jacob Bringewatt, Henry Froland, Andreas Elben, Niklas Mueller
Classical simulation of noisy random circuits from exponential decay of correlation
Su-un Lee, Soumik Ghosh, Changhun Oh, Kyungjoo Noh, Bill Fefferman, Liang Jiang
Classical theories of gravity produce entanglement
Joseph Aziz, Richard Howl
Classical Thermometry of Quantum Annealers
George Grattan, Pratik Sathe, Cristiano Nisoli
Classical vs quantum dynamics and the onset of chaos in a macrospin system
Haowei Fan, Vladimir Fal'ko, Xiao Li
Classically Prepared, Quantumly Evolved: Hybrid Algorithm for Molecular Spectra
Alessandro Santini, Stefano Barison, Filippo Vicentini
Classically Sampling Noisy Quantum Circuits in Quasi-Polynomial Time under Approximate Markovianity
Yifan F. Zhang, Su-un Lee, Liang Jiang, Sarang Gopalakrishnan
Clifford Transformations for Fermionic Quantum Systems: From Paulis to Majoranas to Fermions
Ilias Magoulas, Francesco A. Evangelista