Unified quantification of entanglement and magic in information scrambling and their trade-off relation

TL;DR

This paper develops a unified resource theory for entanglement and magic in quantum information scrambling, revealing a fundamental trade-off relation and providing a measure to quantify their interplay.

Contribution

It introduces a combined measure for entanglement and magic scrambling and establishes a rigorous trade-off relation between them, advancing understanding of quantum resources.

Findings

Derived an analytical maximum for the combined scrambling measure.

Established a trade-off relation between entanglement and magic scrambling.

Quantified the scrambling capability of unitaries in amplifying the measure.

Abstract

Entanglement and magic are among the most fundamental properties unique to quantum systems. Each quantity captures a different aspect of non-classical behavior, and each can be regarded as a resource within its own operational setting. However, the interrelation between them has not yet been fully clarified, and whether a more fundamental measure exists remains an open question. Addressing these issues is essential for deepening our understanding of quantumness. In this study, we establish a unified resource theory of information scrambling, consisting of two types: entanglement scrambling and magic scrambling. We introduce a measure that jointly characterizes both types of scrambling. This unified approach reveals a rigorous trade-off relation between entanglement and magic scrambling, as the exact maximum value of the proposed measure can be derived analytically. Furthermore, we quantify the scrambling capability of unitary transformations in terms of their ability to amplify this measure. Our work provides insights into the connection between entanglement and magic that extend beyond the context of information scrambling.