Engineering Signal Integrity in Multi-qubit Devices: Part I

William O'Brien; Andrew Bestwick; Mehrnoosh Vahidpour; Jon Tyler Whyland; Joel Angeles; Diego Scarabelli; Marius Villiers; Michael Curtis; Anthony Polloreno; Michael Selvanayagam; Alexander Papageorge; Nickolas Rubin; Chad Rigetti

Engineering Signal Integrity in Multi-qubit Devices: Part I

ORAL

Abstract

Cross-talk between qubits can lead to coherence errors, which are particularly difficult to correct in a quantum algorithm. To mitigate noise channels, we have developed a superconducting circuit architecture that partitions devices into shielded compartments with well-defined boundaries. These structures are designed to isolate each component of the circuit. We describe the design and process flow for fabricating robust superconducting boundaries. We present preliminary results on our success in attenuating unwanted cross-talk, while enabling the desired coupling among components.

March 13, 2017, 4:30 PM – March 13, 2017, 4:42 PM

Authors

William O'Brien
- Rigetti Quantum Computing
Andrew Bestwick
- Rigetti Quantum Computing
Mehrnoosh Vahidpour
- Rigetti Quantum Computing
Jon Tyler Whyland
- Rigetti Quantum Computing
Joel Angeles
- Rigetti Quantum Computing
Diego Scarabelli
- Rigetti Quantum Computing
Marius Villiers
- Rigetti Quantum Computing
Michael Curtis
- Rigetti Quantum Computing
Anthony Polloreno
- Rigetti Quantum Computing
Michael Selvanayagam
- Rigetti Quantum Computing
Alexander Papageorge
- Rigetti Quantum Computing
Nickolas Rubin
- Rigetti Quantum Computing
Chad Rigetti
- Rigetti Quantum Computing