Event Details
Speaker Name
Angsar Burchards
Speaker Institution
Freie Universität Berlin
Start Date & Time
2024-11-01 12:00 pm
Semester
Event Details

Abstract: Fault tolerance is a notion of fundamental importance to the field of quantum information processing. It is one of the central properties a quantum computer must possess in order to enable the achievement of large scale practical quantum computation. While a widely used, general, and intuitive concept, within the literature the term fault tolerant is often applied to specific procedures in an ad-hoc fashion tailored to details of the context or platform under discussion. A more unifying perspective has been proposed by Gottesman and Zhang who conjecture that all types of fault-tolerant gates can be regarded as essentially topological in nature, arising from parallel transport with respect to a flat connection on a space of error correcting codes.

In this talk I will discuss multi-mode GKP (Gottesman--Kitaev--Preskill) quantum error-correcting codes from a geometric perspective, establishing the Gottesman-Zhang conjecture for the case of Clifford operations. First I will show how to construct the space of all GKP codes and how this space relates to the space of symplectic lattices. I will then show that GKP Clifford operations arise from parallel transport with respect to a flat connection on the space of GKP codes. Specifically, non-trivial Clifford operations correspond to topologically non-contractible paths on the space of GKP codes, while logical identity operations correspond to contractible paths.

Pizza and drinks will be served after the seminar in ATL 2117.

Location
ATL 2324
Misc
Groups