Thermal and Residual Excited-State Population in a 3D Transmon Qubit

Remarkable advancements in coherence and control fidelity have been achieved in recent years with cryogenic solid-state qubits. Nonetheless, thermalizing such devices to their milliKelvin environments has remained a long-standing fundamental and technical challenge. In this context, we present a sys...

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Bibliographic Details
Main Authors:	Jin, X. Y (Contributor), Gudmundsen, Theodore J. (Contributor), Miloshi, J. (Contributor), Yan, F. (Contributor), Kamal, Archana (Contributor), Sears, Adam P. (Contributor), Hover, David J. (Contributor), Slattery, Richard L. (Contributor), Yoder, Jonilyn Longenecker (Contributor), Orlando, Terry Philip (Contributor), Gustavsson, Simon (Contributor), Oliver, William D. (Contributor)
Other Authors:	Lincoln Laboratory (Contributor), Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science (Contributor), Massachusetts Institute of Technology. Research Laboratory of Electronics (Contributor)
Format:	Article
Language:	English
Published:	American Physical Society, 2015-06-16T14:56:36Z.
Subjects:	Article
Online Access:	Get fulltext

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Thermal and Residual Excited-State Population in a 3D Transmon Qubit

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