The content discusses Quantum State Compression with Polar Codes, focusing on a novel approach based on classical syndrome source coding. The paper explores the use of linear error-correcting codes for rate-optimal quantum compression, particularly utilizing polar codes. By implementing an efficient quantum successive cancellation decoding algorithm based on factor graphs of polar codes, the authors aim to achieve low-complexity compression and decompression protocols for transmitting multi-qubit quantum states. The proposed protocol allows for reliable transmission between Alice and Bob while approaching the source entropy rate. The analysis is primarily dependent on the classical performance of polar codes, showcasing that any capacity-achieving classical error-correcting code can be adapted for lossless quantum compression by embedding the corresponding syndrome source coding protocol into the quantum realm.
The content delves into various aspects such as Quantum Formalism, Binary Linear Codes, Polar Codes, Syndrome Source Coding, and Efficient Implementation using Belief Propagation algorithms. It also presents numerical results comparing the proposed protocol with Schumacher compression across different block lengths to demonstrate superior success probabilities and compression rates achieved by the new approach.
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by Jack Weinber... alle arxiv.org 03-01-2024
https://arxiv.org/pdf/2402.18684.pdfDomande più approfondite