Weakly-tunable transmon qubits in a multi-qubit architecture

Jared Hertzberg; Nicholas Bronn; Antonio Corcoles; Markus Brink; George Keefe; Maika Takita; M. Hutchings; B. L. T. Plourde; Jay Gambetta; Jerry Chow

Weakly-tunable transmon qubits in a multi-qubit architecture

ORAL

Abstract

Quantum error-correction employing a 2D lattice of qubits requires a strong coupling between adjacent qubits and consistently high gate fidelity among them. In such a system, all-microwave cross-resonance gates offer simplicity of setup and operation. [1] However, the relative frequencies of adjacent qubits must be carefully arranged in order to optimize gate rates and eliminate unwanted couplings. [2] We discuss the incorporation of weakly-flux-tunable transmon qubits into such an architecture. Using DC tuning through filtered flux-bias lines, we adjust qubit frequencies while minimizing the effects of flux noise on decoherence. [1] J.M. Chow et al, Nat Comm 5, 4015 (2014). [2] A.D. Corcoles et al, Nat Comm 6, 6979 (2015).

March 16, 2016, 9:36 AM – March 16, 2016, 9:48 AM

Authors

Jared Hertzberg
- IBM T.J. Watson Research Center, Yorktown Heights, NY 10598, USA
- IBM T J Watson Res Ctr
Nicholas Bronn
- IBM T J Watson Res Ctr
Antonio Corcoles
- IBM T J Watson Res Ctr
Markus Brink
- IBM- Research Center
- IBM Research Labs
- IBM T J Watson Res Ctr
George Keefe
- IBM- Research Center
- IBM T J Watson Res Ctr
Maika Takita
- IBM T J Watson Res Ctr
- IBM T.J. Watson Research Center
M. Hutchings
- syracuse university
- Syracuse University
B. L. T. Plourde
- syracuse university
- Syracuse University
Jay Gambetta
- IBM T J Watson Res Ctr
- IBM T.J. Watson Research Center, Yorktown Heights NY, USA
Jerry Chow
- IBM T.J. Watson Research Center, Yorktown Heights, NY 10598, USA
- IBM T J Watson Res Ctr
- IBM T.J. Watson Research Center, Yorktown Heights NY, USA
- IBM T.J. Watson Research Center