Leakage of The Quantum Dot Hybrid Qubit in The Strong Driving Regime

Yuan-Chi Yang; Mark Friesen; S. N. Coppersmith

Leakage of The Quantum Dot Hybrid Qubit in The Strong Driving Regime

ORAL

Abstract

Recent experimental demonstrations of high-fidelity single-qubit gates suggest that the quantum dot hybrid qubit is a promising candidate for large-scale quantum computing. The qubit is comprised of three electrons in a double quantum dot, and can be protected from charge noise by operating in an extended sweet-spot regime. Gate operations are based on exchange interactions mediated by an excited state. However, strong resonant driving causes unwanted leakage into the excited state. Here, we theoretically analyze leakage caused by strong driving, and explore methods for increasing gate fidelities.

^*This work was supported in part by ARO (W911NF-12-0607), NSF (PHY-1104660), ONR (N00014-15-1-0029), and the University of Wisconsin-Madison.

March 14, 2016, 12:39 PM – March 14, 2016, 12:51 PM

Authors

Yuan-Chi Yang
- Univ of Wisconsin, Madison
Mark Friesen
- University of Wisconsin, Madison
- University of Wisconsin-Madison
- University of Wisconsin - Madison
- Univ of Wisconsin, Madison
S. N. Coppersmith
- University of Wisconsin, Madison
- University of Wisconsin-Madison
- University of Wisconsin-Madison, Madison, WI 53706, USA
- Univ of Wisconsin, Madison
- University of Wisconsin Madison
- Wisconsin Institute for Quantum Information, University of Wisconsin-Madison