English

No Strings Attached: Boundaries and Defects in the Cubic Code

Quantum Physics 2024-05-14 v1 Strongly Correlated Electrons

Abstract

Haah's cubic code is the prototypical type-II fracton topological order. It instantiates the no string-like operator property that underlies the favorable scaling of its code distance and logical energy barrier. Previously, the cubic code was only explored in translation-invariant systems on infinite and periodic lattices. In these settings, the code distance scales superlinearly with the linear system size, while the number of logical qubits within the degenerate ground space exhibits a complicated functional dependence that undergoes large fluctuations within a linear envelope. Here, we extend the cubic code to systems with open boundary conditions and crystal lattice defects. We characterize the condensation of topological excitations in the vicinity of these boundaries and defects, finding that their inclusion can introduce local string-like operators and enhance the mobility of otherwise fractonic excitations. Despite this, we use these boundaries and defects to define new encodings where the number of logical qubits scales linearly without fluctuations, and the code distance scales superlinearly, with the linear system size. These include a subsystem encoding with open boundary conditions and a subspace encoding using lattice defects.

Keywords

Cite

@article{arxiv.2308.00138,
  title  = {No Strings Attached: Boundaries and Defects in the Cubic Code},
  author = {Cory T. Aitchison and Daniel Bulmash and Arpit Dua and Andrew C. Doherty and Dominic J. Williamson},
  journal= {arXiv preprint arXiv:2308.00138},
  year   = {2024}
}

Comments

27 pages, 28 figures

R2 v1 2026-06-28T11:44:57.467Z