A new fidelity of quantum channel evolution and its geometric interpretation

Abstract

Fidelity is crucial for characterizing transformations of quantum states under various quantum channels, which can be served as a fundamental tool in resource theories. Firstly, we define an α-z-fidelity as a significant quantity in quantum information theory and give the properties of the fidelity with orders α and z. Secondly, by analyzing the α-z-fidelity under the evolution of different types of quantum channels (single orbit, all quantum channels, unitary quantum channels, and mixed unitary quantum channels), we propose a limit formula for the maximum and the minimum of the α-z-fidelity. In addition, we have extended the α-z-R\'enyi relative entropy, providing new insights into its relevance for resource quantification. Finally, we offer a geometric interpretation for measuring the distance between quantum states, contributing to the broader understanding of the operational and transformative power of dynamical quantum resources across various physical settings.

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