WebAbstract We theoretically formalise and experimentally demonstrate a notion of genuine high- dimensional quantum nonlocal steering. We demonstrate steering with a record local dimension of 15 in a 31-dimensional space. © 2024 The Author (s) PDF Article Presentation Video More Like This Noise-Robust and Loss-Tolerant Quantum Steering … WebThe results show that the optimized steering classifiers can verify quantum steering well with only a small number of Pauli measurements, and can be generalized to other multipartite or high-dimensional quantum systems. We investigate the possibility of optimizing genuine tripartite quantum steering inequalities via machine learning. In …
Genuine high-dimensional quantum steering – arXiv Vanity
Here we theoretically formalize and experimentally demonstrate a notion of genuine high-dimensional quantum steering. We show that high-dimensional entanglement, as quantified by the Schmidt number, can lead to a stronger form of steering, provably impossible to obtain via entanglement in lower dimensions. WebMar 1, 2024 · For both types of quantum steering, if Alice has full information about the quantum system Bob is holding, she is capable of steering the system into an arbitrary state. ... Robust genuine high-dimensional steering with many measurements. 2024, Physical Review A. Experimental demonstration of fine-grained steering inequality of … smart astur
Fugu-MT 論文翻訳(概要): Unlimited One-Way Steering
WebRobust method for certifying genuine high-dimensional quantum steering with multimeasurement settings Rui Qu, Yunlong Wang, Xiaolin Zhang, Shihao Ru, Feiran Wang, Hong Gao, Fuli Li, and Pei Zhang Optica 9 (5), 473-478 (2024) View: HTML … WebWe derive genuine HD steering criteria using multiple mutually unbiased bases, surpassing the previous restriction of only two measurement settings. Although the present multisetting criteria are not tight, we theoretically show that they are more robust to noise than the tight two-setting criteria. Webof genuine high-dimensional quantum steering. We show that high-dimensional entanglement, as quantified by the Schmidt number, can lead to a stronger form of steering, provably impossible to obtain via entanglement in lower dimensions. Exploiting the connection between steering and incompatibility of quantum measurements, we derive … hill dickinson liverpool legal 500