A quantum engineer's guide to superconducting qubits
MIT Lincoln Laboratory · Massachusetts Institute of Technology · +1 more institution
Abstract
The aim of this review is to provide quantum engineers with an introductory guide to the central concepts and challenges in the rapidly accelerating field of superconducting quantum circuits. Over the past twenty years, the field has matured from a predominantly basic research endeavor to a one that increasingly explores the engineering of larger-scale superconducting quantum systems. Here, we review several foundational elements—qubit design, noise properties, qubit control, and readout techniques—developed during this period, bridging fundamental concepts in circuit quantum electrodynamics and contemporary, state-of-the-art applications in gate-model quantum computation.
Citation impact
- FWCI
- 100.54
- Percentile
- 100%
- References
- 466
Authors
6- PKPhilip KrantzCorresponding
MIT Lincoln Laboratory, Massachusetts Institute of Technology, Chalmers University of Technology
- MKMorten Kjærgaard
MIT Lincoln Laboratory, Massachusetts Institute of Technology, Chalmers University of Technology
- FYFei Yan
MIT Lincoln Laboratory, Massachusetts Institute of Technology, Chalmers University of Technology
- TPTerry P. Orlando
MIT Lincoln Laboratory, Massachusetts Institute of Technology, Chalmers University of Technology
- SGSimon Gustavsson
MIT Lincoln Laboratory, Massachusetts Institute of Technology, Chalmers University of Technology
Topics & keywords
- Qubit
- Quantum computer
- Quantum technology
- Quantum
- Physics
- Superconducting quantum computing
- Bridging (networking)
- Quantum information