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Trapped Ion Quantum Computing
High-Dimensional Bell States: A Paradigm Shift for Quantum Illumination
arXiv
Authors: Armanpreet Pannu, Amr S. Helmy, Hesham El Gamal
Year
2024
Paper ID
65537
Status
Preprint
Abstract Read
~2 min
Abstract Words
152
Citations
N/A
Abstract
This paper solves the open problem of characterizing the performance of quantum illumination (QI) with discrete variable states. By devising a novel quantum measurement approach along with meticulous analysis, our investigation demonstrates that, in the limit as M → infty, the maximally entangled M mode Bell state achieves optimal performance, matching the two-mode squeezed vacuum in a high-noise regime and exceeding it in low-noise. This result challenges the dominance of continuous variable states in photonic sensing applications and extends the novelty of QI to regimes where no quantum advantage was believed to exist. A closer analysis reveals that this advantage stems from retained entanglement in the transmitted Bell state, a paradigm-shifting discovery since interaction with the environment in optical systems is believed to break entanglement. The complete mathematical analysis of this work provides granular insights into the interaction between photonic systems and environmental noise, motivating further research into discrete variable quantum sensing.
Why This Paper Matters
- This paper contributes to the Trapped-Ion Quantum Computing research area in the Quantum Articles archive.
- It adds a 2024 reference point for readers tracking recent quantum research.
- This paper solves the open problem of characterizing the performance of quantum illumination (QI) with discrete variable states.
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