Title :
Optimal Quantum Source Coding With Quantum Side Information at the Encoder and Decoder
Author :
Yard, Jon T. ; Devetak, Igor
Author_Institution :
Los Alamos Nat. Lab., Los Alamos, NM, USA
Abstract :
Consider many instances of an arbitrary quadripartite pure state of four quantum systems ABCD. Alice holds the AC part of each state, Bob holds B, while R represents all other parties correlated with ABC . Alice is required to redistribute the C systems to Bob while asymptotically preserving the overall purity. We prove that this is possible using Q qubits of communication and E ebits of shared entanglement between Alice and Bob, provided that Q ges 1/2I(C; D|B) and Q + E ges H(C|B), proving the optimality of the Luo-Devetak outer bound. The optimal qubit rate provides the first known operational interpretation of quantum conditional mutual information. We also show how our protocol leads to a fully operational proof of strong subaddivity and uncover a general organizing principle, in analogy to thermodynamics, that underlies the optimal rates.
Keywords :
protocols; quantum communication; source coding; E ebits; Luo-Devetak outer bound; Q qubits; optimal quantum source coding; optimal qubit rate; protocol; quantum conditional mutual information; quantum side information; thermodynamics; Data compression; Decoding; Entropy; Mutual information; Organizing; Protocols; Quantum entanglement; Quantum mechanics; Random variables; Source coding; Quantum information; side information; source coding;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2009.2030494
