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Trapped Ion Quantum Computing

Efficient quantum circuits for port-based teleportation

arXiv
Authors: Dmitry Grinko, Adam Burchardt, Maris Ozols

Year

2023

Paper ID

52816

Status

Preprint

Abstract Read

~2 min

Abstract Words

158

Citations

N/A

Abstract

Port-based teleportation (PBT) is a variant of quantum teleportation that, unlike the canonical protocol by Bennett et al., does not require a correction operation on the teleported state. Since its introduction by Ishizaka and Hiroshima in 2008, no efficient implementation of PBT was known. We close this long-standing gap by building on our recent results on representations of partially transposed permutation matrix algebras and mixed quantum Schur transform. We construct efficient quantum algorithms for probabilistic and deterministic PBT protocols on n ports of arbitrary local dimension, both for EPR and optimized resource states. We describe two constructions based on different encodings of the Gelfand-Tsetlin basis for n qudits: a standard encoding that achieves widetilde{O}(n) time and O\(nlog(n\)) space complexity, and a Yamanouchi encoding that achieves widetilde{O}\(n2\) time and O\(log(n\)) space complexity, both for constant local dimension and target error. We also describe efficient circuits for preparing the optimal resource states.

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  • This paper contributes to the Trapped-Ion Quantum Computing research area in the Quantum Articles archive.
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  • Port-based teleportation (PBT) is a variant of quantum teleportation that, unlike the canonical protocol by Bennett et al., does not require a correction operation on the...

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