A correspondence between quantum error correcting codes and quantum reference frames
| Autor: | Carrozza, Sylvain, Chatwin-Davies, Aidan, Hoehn, Philipp A., Mele, Fabio M. |
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| Rok vydání: | 2024 |
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| Druh dokumentu: | Working Paper |
| Popis: | In a gauge theory, a collection of kinematical degrees of freedom is used to redundantly describe a smaller amount of gauge-invariant information. In a quantum error correcting code (QECC), a collection of computational degrees of freedom that make up a device's physical layer is used to redundantly encode a smaller amount of logical information. We elaborate this clear parallel in terms of quantum reference frames (QRFs), which are a universal toolkit for quantization in the presence of symmetries. The result is a precise dictionary between QECCs and QRFs within the perspective-neutral framework for constrained systems. Concepts from quantum error correction like error sets and correctability translate to novel insights into the informational architecture of gauge theories. Conversely, the dictionary provides a systematic procedure for constructing symmetry-based QECCs and characterizing their error correcting properties. In this initial work, we scrutinize the dictionary between Pauli stabilizer codes and their corresponding QRF setups, which possess symmetry groups that are isomorphic to the stabilizer group. We show that there is a one-to-one correspondence between maximal correctable error sets and tensor factorizations splitting system from frame degrees of freedom, relative to which errors corrupt only redundant frame data. When passed through the dictionary, standard Pauli errors from the code essentially behave as electric excitations that are exactly dual, via Pontryagin duality, to magnetic excitations related to gauge-fixing. We comprehensively illustrate our findings in surface codes, which themselves manifestly connect quantum error correction with gauge systems. The exploratory investigations in this article pave the way for deeper foundational applications to quantum gauge theories and for eventual practical applications to quantum simulation. Comment: 57 pages + appendices, 6 figures. Comments welcome |
| Databáze: | arXiv |
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