Related papers: The SWAP Imposter: Bidirectional Quantum Teleportation and its Performance

The SWAP Imposter: Bidirectional Quantum Teleportation and its Performance

URL: http://arxiv.org/abs/2210.10882v1
Date: Wed, 19 Oct 2022 20:43:57 GMT
Title: The SWAP Imposter: Bidirectional Quantum Teleportation and its Performance
Authors: Aliza U. Siddiqui, Mark M. Wilde
Abstract summary: Bidirectional quantum teleportation is a fundamental protocol for exchanging quantum information between two parties. We develop two different ways of quantifying the error of nonideal bidirectional teleportation. We obtain semidefinite programming lower bounds on the error of nonideal bidirectional teleportation.
Score: 6.345523830122166
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Bidirectional quantum teleportation is a fundamental protocol for exchanging quantum information between two parties. Specifically, the two individuals make use of a shared resource state as well as local operations and classical communication (LOCC) to swap quantum states. In this work, we concisely highlight the contributions of our companion paper [Siddiqui and Wilde, arXiv:2010.07905]. We develop two different ways of quantifying the error of nonideal bidirectional teleportation by means of the normalized diamond distance and the channel infidelity. We then establish that the values given by both metrics are equal for this task. Additionally, by relaxing the set of operations allowed from LOCC to those that completely preserve the positivity of the partial transpose, we obtain semidefinite programming lower bounds on the error of nonideal bidirectional teleportation. We evaluate these bounds for some key examples -- isotropic states and when there is no resource state at all. In both cases, we find an analytical solution. The second example establishes a benchmark for classical versus quantum bidirectional teleportation. Another example that we investigate consists of two Bell states that have been sent through a generalized amplitude damping channel (GADC). For this scenario, we find an analytical expression for the error, as well as a numerical solution that agrees with the former up to numerical precision.

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