English

The x+y Floquet code: A simple example for topological quantum computation in the path integral approach

Quantum Physics 2025-03-18 v2

Abstract

The path-integral approach to topological quantum error correction provides a unified way to construct and analyze fault-tolerant circuits in spacetime. In this work, we demonstrate its utility and versatility at hand of a simple example: We construct a new fault-tolerant circuit for the toric-code phase by traversing its path integral on a (x,y,z)(x,y,z) cubic lattice in the x+yx+y direction. The circuit acts on qubits on a square lattice, and alternates between horizontal nearest-neighbor CXCX gates and vertical nearest-neighbor ZZZZ and XXXX measurements. We show how to incorporate boundaries and corners into the fault-tolerant circuit and how to perform topologically protected logic gates. As a specific example, we consider performing a fault-tolerant logical ZZZZ measurement via lattice surgery of two spatial rectangular blocks of our fault-tolerant circuit.

Keywords

Cite

@article{arxiv.2408.07265,
  title  = {The x+y Floquet code: A simple example for topological quantum computation in the path integral approach},
  author = {Andreas Bauer},
  journal= {arXiv preprint arXiv:2408.07265},
  year   = {2025}
}

Comments

v2: Minor improvements. Published version

R2 v1 2026-06-28T18:12:25.495Z