Eichler C (2023)
Publication Type: Conference contribution, Conference Contribution
Publication year: 2023
City/Town: Hannover, Germany
Event location: Hannover, Germany
URI: https://www.dpg-verhandlungen.de/year/2023/conference/samop/part/qi/session/5/contribution/1?lang=en
Quantum Computers will ultimately rely on near-perfect logical gates, implemented while correcting errors at the physical level. The need for developing quantum hardware optimized for performing fast, repeatable, and high-fidelity syndrome measurements in quantum error-correcting codes such as the surface code therefore becomes increasingly important. In my talk, I will present advances in performing qubit readout and two-qubit gates in multi-qubit superconducting quantum processors, which enabled the recent experimental demonstration of repeated quantum error correction in surfaces codes. I will show how quantum processors optimized for quantum error correction can also serve as a testbed to explore noisy intermediate-scale quantum algorithms. The talk will conclude with a discussion about open challenges and opportunities to advance the speed and fidelity of syndrome detection in scalable device architectures by exploiting tunable coupling elements.
APA:
Eichler, C. (2023). Building Superconducting Quantum Hardware towards Error-Corrected Quantum Computing. Hannover, Germany: Hannover, Germany.
MLA:
Eichler, Christopher. "Building Superconducting Quantum Hardware towards Error-Corrected Quantum Computing." Hannover, Germany Hannover, Germany, 2023.
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