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Quantum Algorithms
High-Purity Entanglement of Hot Propagating Modes Using Nonreciprocity
arXiv
Authors: Lindsay Orr, Saeed A. Khan, Nils Buchholz, Shlomi Kotler, A. Metelmann
Year
2022
Paper ID
59322
Status
Preprint
Abstract Read
~2 min
Abstract Words
115
Citations
N/A
Abstract
Distributed quantum information processing and communication protocols demand the ability to generate entanglement among propagating modes. However, thermal fluctuations can severely limit the fidelity and purity of propagating entangled states, especially for low-frequency modes relevant for radio-frequency (RF) signals. Here we propose nonreciprocity as a resource to render continuous-variable entanglement of propagating modes robust against thermal fluctuations. By utilising a cold-engineered reservoir we break the symmetry of reciprocity in a standard two-mode squeezing interaction between a low- and a high-frequency mode, and show that the rerouting of thermal fluctuations allows the generation of flying entangled states with high purity. Our approach requires only pairwise Gaussian interactions and is thus ideal for parametric circuit QED implementations.
Why This Paper Matters
- It adds a 2022 reference point for readers tracking recent quantum research.
- Distributed quantum information processing and communication protocols demand the ability to generate entanglement among propagating modes.
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