Extending Plane Breaking Pogo Packaging to a Lattice of 17 Superconducting Qubits

Nicholas Bronn; Vivekananda Adiga; Salvatore Olivadese; Oblesh Jinka; Xian Wu; Jerry Chow; David Pappas

Extending Plane Breaking Pogo Packaging to a Lattice of 17 Superconducting Qubits

ORAL

Abstract

High coherence pogo pin packaging for breaking the plane in a 7-qubit lattice of superconducting qubits in a non-trivial topology was recently demonstrated [1]. Here, we extend this work to a 17-qubit section of the surface code for eventual testing of a distance 3 logical-qubit memory. We report on observed coherences as well as crosstalk between qubits.

[1] Bronn et al, arXiv:1709.02402

^*This work was supported by IARPA under contract W911NF-10-1-0324.

March 8, 2018, 10:12 AM – March 8, 2018, 10:24 AM

Presenters

Nicholas Bronn
- IBM T. J. Watson Research Center
- IBM TJ Watson Research Center
- IBM
- IBM T J Watson Res Ctr

Authors

Nicholas Bronn
- IBM T. J. Watson Research Center
- IBM TJ Watson Research Center
- IBM
- IBM T J Watson Res Ctr
Vivekananda Adiga
- IBM TJ Watson Research Center
- IBM
Salvatore Olivadese
- IBM TJ Watson
- IBM TJ Watson Research Center
- IBM
- IBM T J Watson Res Ctr
Oblesh Jinka
- IBM TJ Watson Research Center
- IBM T J Watson Res Ctr
Xian Wu
- NIST - Boulder
- National Institute of Standards and Technology
Jerry Chow
- IBM T.J. Watson Research Center
- IBM T. J. Watson Research Center
- IBM TJ Watson
- IBM TJ Watson Research Center
- IBM
- IBM T J Watson Res Ctr
- IBM T J Watson Research Center
David Pappas
- NIST
- National Institute of Standards and Technology
- NIST - Boulder