Cross-resonance Dynamics with Tunable Transmon Qubits
ORAL
Abstract
The cross-resonance gate is a widely-utilized entangling gate in modern superconducting quantum processors. Recent theoretical work [1] has illustrated that the dynamics of the cross-resonance interaction depend strongly on circuit and control parameters, such as frequency detuning and the effective coupling rate. We experimentally investigate the dynamics of the cross-resonance gate across a range of qubit detuning, intrinsic coupling strength, drive frequency, and compare our findings with the model.
[1] Tripathi, V. et al., Physical Review A 100, no. 1 (July 1, 2019). https://doi.org/10.1103/PhysRevA.100.012301.
[1] Tripathi, V. et al., Physical Review A 100, no. 1 (July 1, 2019). https://doi.org/10.1103/PhysRevA.100.012301.
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Presenters
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Bradley Mitchell
University of California, Berkeley, Univ of California – Berkeley, Univ of California - Berkeley, Physics, University of California, Berkeley
Authors
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Bradley Mitchell
University of California, Berkeley, Univ of California – Berkeley, Univ of California - Berkeley, Physics, University of California, Berkeley
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Ravi Kaushik Naik
University of California, Berkeley, Physics, University of California, Berkeley
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Akel Hashim
University of California, Berkeley, Univ of California - Berkeley
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John Mark Kreikebaum
University of California, Berkeley
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Irfan Siddiqi
University of California, Berkeley, Univ of California - Berkeley, Univ of California – Berkeley, Physics, University of California, Berkeley