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 9973-9984 of 19,132

Robust cryogenic matched low-pass coaxial filters for quantum computing applications

Andrey A. Samoylov, Anton I. Ivanov, Vladimir V. Echeistov, Elizaveta I. Malevannaya, Aleksei R. Matanin, Nikita S. Smirnov, Victor I. Polozov, Ilya A. Rodionov

2022 arXiv arXiv preprint

Robust digital optimal control on IBM quantum computers

Meri Harutyunyan, Frederic Holweck, Dominique Sugny, Stephane Guerin

2022 arXiv arXiv preprint

Robust Oscillator-Mediated Phase Gates Driven by Low-Intensity Pulses

I. Arrazola, J. Casanova

2022 arXiv arXiv preprint

Robust phase-controlled gates for scalable atomic quantum processors using optical standing waves

Shannon Whitlock

2022 arXiv arXiv preprint

Robust Quantum Circuit for Clique Problem with Intermediate Qudits

Arpita Sanyal, Amit Saha, Banani Saha, Amlan Chakrabarti

2022 arXiv arXiv preprint

Robust quantum control for higher order coupling term in trapped ions

Jing-Bo Wang

2022 arXiv arXiv preprint

Robustness of the Floquet-assisted superradiant phase and possible laser operation

Lukas Broers, Ludwig Mathey

2022 arXiv arXiv preprint

Role of parasitic interactions and microwave crosstalk in dispersive control of two superconducting artificial atoms

Alan C. Santos

2022 arXiv arXiv preprint

Room-temperature strong coupling in a single photon emitter-dielectric metasurface system

T. Thu Ha Do, Milad Nonahal, Chi Li, Vytautas Valuckas, Arseniy I. Kuznetsov, Hai Son Nguyen, Igor Aharonovich, Son Tung Ha

2022 arXiv arXiv preprint

Rotation-inspired circuit cut optimization

Gideon Uchehara, Tor M. Aamodt, Olivia Di Matteo

2022 arXiv arXiv preprint

Rotational decoherence due to thermal photon scattering

Hamid Reza Naeij

2022 arXiv arXiv preprint

Sample-efficient Quantum Born Machine through Coding Rate Reduction

Pengyuan Zhai

2022 arXiv arXiv preprint