Abstract :
Two new relative entropy quantities, called the min- and max-relative entropies, are introduced and their properties are investigated. The well-known min- and max-entropies, introduced by Renner, are obtained from these. We define a new entanglement monotone, which we refer to as the max-relative entropy of entanglement, and which is an upper bound to the relative entropy of entanglement. We also generalize the min- and max-relative entropies to obtain smooth min-and max-relative entropies. These act as parent quantities for the smooth Renyi entropies (ETH Zurich, Ph.D. dissertation, 2005), and allow us to define the analogues of the mutual information, in the smooth Renyi entropy framework. Further, the spectral divergence rates of the information spectrum approach are shown to be obtained from the smooth min- and max-relative entropies in the asymptotic limit.
Keywords :
maximum entropy methods; minimum entropy methods; quantum entanglement; entanglement monotone; information spectrum; max-relative entropies; min-relative entropies; relative entropy quantities; smooth Renyi entropies; spectral divergence rates; Entropy; Information theory; Mutual information; Probability distribution; Protocols; Quantum entanglement; Quantum mechanics; Random variables; Relativistic quantum mechanics; Upper bound; Entanglement monotone; information spectrum; quantum relative entropy; smooth RÉnyi entropies; spectral divergence rates;
