Single shot distinguishability of noisy quantum channels

TL;DR

This paper investigates the single-shot discrimination of noisy quantum channels, analyzing the roles of entanglement and probe type across various channel classes to identify optimal strategies and conditions for perfect discrimination.

Contribution

It provides a comprehensive analysis of the effectiveness of entangled versus single-system probes in discriminating different noisy quantum channels, revealing scenarios where entanglement is beneficial or unnecessary.

Findings

Maximally entangled probes are optimal for qubit depolarizing channels.

Single-system probes can be optimal for dephasing channels in arbitrary dimensions.

Non-maximally entangled probes can be optimal depending on noise parameters.

Abstract

Among the intriguing features of quantum theory, the problem of distinguishing quantum channels is of fundamental interest. In this paper, we focus on the single-shot discrimination of two noisy quantum channels using two distinct classes of probes: single-system (product) probes and entangled probes. Our aim is to identify optimal probing state for specific discrimination tasks and to analyze the necessity and role of entanglement in enhancing channel distinguishability. We show that maximally entangled probes are optimal for discriminating two qubit depolarizing channels, with any nonzero entanglement providing an advantage over single-system probes. In contrast, for dephasing channels in arbitrary dimensions, we prove that single-system probe can be optimal and that entanglement offers no improvement, even when the dephasing unitary is generalized. For qubit amplitude-damping channels, we identify distinct noise-dependent regimes in which either single-system probe outperforms maximally entangled probes and vice-versa. Moreover, we demonstrate that non-maximally entangled probes can act as the optimum probe if the noise parameters restricted to certain values in this task. We also present examples of noisy unitary channels for which discrimination is possible using non-maximally entangled probe, while both single-systems and maximally entangled probes fail. We introduce another class of noisy unitary channels for which perfect discrimination is achievable with a single system, while maximally entangled probes are insufficient. Finally, we show that two erasure channels can be optimally discriminated using any pure single-system probe, with no advantage gained from entanglement.