期刊
IEEE TRANSACTIONS ON INFORMATION THEORY
卷 69, 期 1, 页码 283-297出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TIT.2022.3199578
关键词
Coding and information theory
This study provides operationally motivated bounds on several capacities, including the quantum capacity, private capacity, one-way distillable entanglement, and private key. These bounds are generally expressed in terms of capacity quantities involving the complementary channel or state. The study also discusses partial orders on quantum channels and states as a tool to obtain these bounds.
Quantum capacities are fundamental quantities that are notoriously hard to compute and can exhibit surprising properties such as superadditivity. Thus, a vast amount of literature is devoted to finding tight and computable bounds on these capacities. We add a new viewpoint by giving operationally motivated bounds on several capacities, including the quantum capacity and private capacity of a quantum channel and the one-way distillable entanglement and private key of a quantum state. These bounds are generally phrased in terms of capacity quantities involving the complementary channel or state. As a tool to obtain these bounds, we discuss partial orders on quantum channels and states, such as the less noisy and the more capable order. Our bounds help to further understand the interplay between different capacities, as they give operational limitations on superadditivity and the difference between capacities in terms of the information-theoretic properties of the complementary channel or state. They can also be used as a new approach towards numerically bounding capacities, as discussed with some examples.
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