Related papers: Aspect of bipartite coherence in quantum discord to semi-device-independent nonlocality and its implication for quantum information processing

Aspect of bipartite coherence in quantum discord to semi-device-independent nonlocality and its implication for quantum information processing

URL: http://arxiv.org/abs/2410.04430v4
Date: Thu, 22 May 2025 07:32:16 GMT
Title: Aspect of bipartite coherence in quantum discord to semi-device-independent nonlocality and its implication for quantum information processing
Authors: Chellasamy Jebarathinam, Huan-Yu Ku, Hao-Chung Cheng, Hsi-Sheng Goan,
Abstract summary: We show that global coherence is necessary to demonstrate semi-device-independent nonlocality or steerability of quantum discord.<n>We identify the quantum resource for the quantum communication task of $textitremote state preparation$ using two-qubit separable states.
Score: 5.437298646956505
License: http://creativecommons.org/licenses/by/4.0/
Abstract: $\textit{Nonlocality}$ or $\textit{steerability}$ of $\textit{quantum discord}$ can be demonstrated in the context of a $\textit{semi-device-independent}$ Bell or steering scenario where shared randomness is not a free resource, respectively. This work addresses which aspect of $\textit{bipartite coherence}$ is essential for such semi-device-independent quantum information tasks going beyond Bell nonlocality or standard quantum steering. It has been shown that $\textit{global coherence}$ of a single system can be transformed into $\textit{bipartite entanglement}$. However, global coherence can also be present in quantum discord. At the same time, discord can display bipartite coherence locally, i.e., only in a subsystem or in both subsystems. Thus, global coherence of bipartite separable states is defined here as a form of bipartite coherence that is not reducible to local coherence in any of the subsystems or both subsystems. To answer the above-mentioned question, we demonstrate that global coherence is necessary to demonstrate semi-device-independent nonlocality or steerability of quantum discord in any given Bell or steering scenario, respectively. From this result, it follows that for the resource theory of semi-device-independent nonlocality or steerability of discord, any $\textit{local operations}$ of the form $\Phi_A \otimes \Phi_B$ that may create $\textit{coherence locally}$ from an incoherent state are $\textit{free operations}$. As a by-product, we identify the precise quantum resource for the quantum communication task of $\textit{remote state preparation}$ using two-qubit separable states.

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