Axioms (Sep 2024)

Algebraic and Geometric Methods for Construction of Topological Quantum Codes from Lattices

  • Edson Donizete de Carvalho,
  • Waldir Silva Soares,
  • Douglas Fernando Copatti,
  • Carlos Alexandre Ribeiro Martins,
  • Eduardo Brandani da Silva

DOI
https://doi.org/10.3390/axioms13100676
Journal volume & issue
Vol. 13, no. 10
p. 676

Abstract

Read online

Current work provides an algebraic and geometric technique for building topological quantum codes. From the lattice partition derived of quotient lattices Λ′/Λ of index m combined with geometric technique of the projections of vector basis Λ′ over vector basis Λ, we reproduce surface codes found in the literature with parameter [[2m,2,|a|+|b|]] for the case Λ=Z2 and m=a2+b2, where a and b are integers that are not null, simultaneously. We also obtain a new class of surface code with parameters [[2m,2,|a|+|b|]] from the Λ=A2-lattice when m can be expressed as m=a2+ab+b2, where a and b are integer values. Finally, we will show how this technique can be extended to the construction of color codes with parameters [[18m,4,6(|a|+|b|)]] by considering honeycomb lattices partition A2/Λ′ of index m=9(a2+ab+b2) where a and b are not null integers.

Keywords