Towards practical self-correction with augmented Majorana stabilizer codes

Stephan Plugge; Marcel Franz; Robert Raussendorf; Ian Affleck

Towards practical self-correction with augmented Majorana stabilizer codes

ORAL

Abstract

We present design ideas for an augmented Majorana surface code (MSC) that allows improved error-correcting behavior on practically relevant time-scales. The underlying mechanism resembles that of interacting anyon models, and facilitates the protected Hamiltonian-level generation of stabilizer operators in MSCs together with coupling to auxiliary bosonic degrees of freedom. In this talk, I will discuss MSCs and their extensions affording improved error-correction, towards the goal of thermally stable quantum memories in 2D.

^*We acknowledge funding by NSERC, CIFAR, and the Stewart Blusson Quantum Matter Institute at UBC Vancouver. Further we acknowledge computational resources provided by UBC ARC Sockeye and the Compute Canada network.

March 2, 2020, 9:24 AM – March 2, 2020, 9:36 AM

Presenters

Stephan Plugge
- University of British Columbia

Authors

Stephan Plugge
- University of British Columbia
Marcel Franz
- University of British Columbia
Robert Raussendorf
- University of British Columbia
Ian Affleck
- Physics and Astronomy, University of British Columbia
- Department of Physics and Astronomy and Stewart Blusson Quantum Matter Institute, University of British Columbia
- Physics, University of British Columbia
- University of British Columbia