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Paper 1

Room-temperature quantum bit memory exceeding one second.

Maurer PC, Kucsko G, Latta C, Jiang L, Yao NY, Bennett SD, Pastawski F, Hunger D, Chisholm N, Markham M, Twitchen DJ, Cirac JI, Lukin MD.

Year: 2012
Journal: Science
DOI: 10.1126/science.1220513
arXiv: -

No abstract.

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Paper 2

Entanglement-assisted Quantum Error Correcting Code Saturating The Classical Singleton Bound

Soham Ghosh, Evagoras Stylianou, Holger Boche

Year: 2024
Journal: arXiv preprint
DOI: arXiv:2410.04130
arXiv: 2410.04130

We introduce a construction for entanglement-assisted quantum error-correcting codes (EAQECCs) that saturates the classical Singleton bound with less shared entanglement than any known method for code rates below $ \frac{k}{n} = \frac{1}{3} $. For higher rates, our EAQECC also meets the Singleton bound, although with increased entanglement requirements. Additionally, we demonstrate that any classical $[n,k,d]_q$ code can be transformed into an EAQECC with parameters $[[n,k,d;2k]]_q$ using $2k$ pre-shared maximally entangled pairs. The complexity of our encoding protocol for $k$-qudits with $q$ levels is $\mathcal{O}(k \log_{\frac{q}{q-1}}(k))$, excluding the complexity of encoding and decoding the classical MDS code. While this complexity remains linear in $k$ for systems of reasonable size, it increases significantly for larger-levelled systems, highlighting the need for further research into complexity reduction.

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