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

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

URL: http://arxiv.org/abs/2410.04430v3
Date: Tue, 29 Oct 2024 05:18:42 GMT
Title: The 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: Quantum discord can demonstrate quantum nonlocality in the context of a semi-device-independent Bell or steering scenario. This work addresses which aspect of bipartite coherence is essential to such semi-device-independent quantum information tasks.
Score: 5.437298646956505
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Quantum discord can demonstrate quantum nonlocality in the context of a semi-device-independent Bell or steering scenario, i.e., by assuming only the Hilbert-space dimension. This work addresses which aspect of bipartite coherence is essential to such semi-device-independent quantum information tasks going beyond standard Bell nonlocality or quantum steering. It has been shown that the global coherence of a single system can be transformed into 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 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 of quantum discord in Bell or steering scenarios. From this result, it follows that any local operations of the form $\Phi_A \otimes \Phi_B$ that may create coherence locally are free operations in the resource theory of semi-device-independent nonlocality of discord. As a byproduct, we identify the precise quantum resource for the quantum communication task of remote state preparation using two-qubit separable states.

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