Robustness of Higher Dimensional Nonlocality against dual noise and sequential measurements

Roy, Saptarshi ; Kumari, Asmita ; Mal, Shiladitya ; De, Aditi Sen (2020) Robustness of Higher Dimensional Nonlocality against dual noise and sequential measurements Physical Review A . ISSN 0031-899X (print); 1536-6065 (web)

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Official URL: https://arxiv.org/abs/2012.12200

Abstract

Robustness in the violation of Collins-Linden-Gisin-Masser-Popescu (CGLMP) inequality is investigated from the dual perspective of noise in measurements as well as in states. To quantify it, we introduce a quantity called area of nonlocal region which reveals a dimensional advantage. Specifically, we report that with the increase of dimension, the maximally violating states (MVS) show a greater enhancement in the area of nonlocal region in comparison to the maximally entangled states (MES) and the scaling of the increment, in this case, grows faster than visibility. Moreover, we examine the robustness in the sequential violation of CGLMP inequality using weak measurements, and find that even for higher dimensions, two observers showing a simultaneous violation of the CGLMP inequality as obtained for two-qubit states persists. We notice that the complementarity between information gain and disturbance by measurements is manifested by the decrease of the visibility in the first round and the increase of the same in the second round with dimensions. Furthermore, the amount of white noise that can be added to an MES so that it gives two rounds of the violation, decreases with the dimension, while the same does not appreciably change for the MVS.

Item Type:Article
Keywords:Quantum Physics (quant-ph), FOS: Physical sciences, FOS: Physical sciences
ID Code:125685
Deposited On:12 Oct 2022 08:28
Last Modified:12 Oct 2022 08:28

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