scholarly journals Multiple-shot and unambiguous discrimination of von Neumann measurements

Quantum ◽  
2021 ◽  
Vol 5 ◽  
pp. 425
Author(s):  
Zbigniew Puchała ◽  
Łukasz Pawela ◽  
Aleksandra Krawiec ◽  
Ryszard Kukulski ◽  
Michał Oszmaniec
Keyword(s):  
Success Probability ◽  
Adaptive Methods ◽  
Alternative Proof ◽  
Von Neumann ◽  
Minimum Error ◽  
Unambiguous Discrimination ◽  
Depth Study ◽  
Multiple Shot ◽  
Perfect Discrimination ◽  
Von Neumann Measurements

We present an in-depth study of the problem of multiple-shot discrimination of von Neumann measurements in finite-dimensional Hilbert spaces. Specifically, we consider two scenarios: minimum error and unambiguous discrimination. In the case of minimum error discrimination, we focus on discrimination of measurements with the assistance of entanglement. We provide an alternative proof of the fact that all pairs of distinct von Neumann measurements can be distinguished perfectly (i.e. with the unit success probability) using only a finite number of queries. Moreover, we analytically find the minimal number of queries needed for perfect discrimination. We also show that in this scenario querying the measurements in parallel gives the optimal strategy, and hence any possible adaptive methods do not offer any advantage over the parallel scheme. In the unambiguous discrimination scenario, we give the general expressions for the optimal discrimination probabilities with and without the assistance of entanglement. Finally, we show that typical pairs of Haar-random von Neumann measurements can be perfectly distinguished with only two queries.

Bell inequality for quNits with binary measurements

2003 ◽  
Vol 3 (2) ◽  
pp. 157-164
Author(s):  
H. Bechmann-Pasquinucci ◽  
N. Gisin
Keyword(s):  
Quantum Cryptography ◽  
Bell Inequality ◽  
The Other ◽  
Entangled State ◽  
Maximally Entangled State ◽  
Von Neumann ◽  
Chsh Inequality ◽  
Intermediate States ◽  
Von Neumann Measurements

We present a generalized Bell inequality for two entangled quNits. On one quNit the choice is between two standard von Neumann measurements, whereas for the other quNit there are N^2 different binary measurements. These binary measurements are related to the intermediate states known from eavesdropping in quantum cryptography. The maximum violation by \sqrt{N} is reached for the maximally entangled state. Moreover, for N=2 it coincides with the familiar CHSH-inequality.

scholarly journals Environment-induced dephasing versus von Neumann measurements in proton tunneling

2014 ◽  
Vol 90 (1) ◽  
Author(s):  
A. D. Godbeer ◽  
J. S. Al-Khalili ◽  
P. D. Stevenson
Keyword(s):  
Proton Tunneling ◽  
Von Neumann ◽  
Von Neumann Measurements

scholarly journals ON THE EQUIVALENCE OF THE CH AND CHSH INEQUALITIES FOR TWO THREE-LEVEL SYSTEMS

2003 ◽  
Vol 01 (01) ◽  
pp. 115-133 ◽  
Author(s):  
JOSÉ L. CERECEDA
Keyword(s):  
Quantum Efficiency ◽  
Quantum Systems ◽  
Optimal Choice ◽  
Entangled State ◽  
Von Neumann ◽  
Chsh Inequality ◽  
Realistic Description ◽  
Von Neumann Measurements ◽  
Chsh Inequalities

In this paper we show a Clauser-Horne (CH) inequality for two three-level quantum systems or qutrits, alternative to the CH inequality given by Kaszlikowski et al. [Phys. Rev. A65, 032118 (2002)]. In contrast to this latter CH inequality, the new one is shown to be equivalent to the Clauser-Horne-Shimony-Holt (CHSH) inequality for two qutrits given by Collins et al. [Phys. Rev. Lett. 88, 040404 (2002)]. Both the CH and CHSH inequalities exhibit the strongest resistance to noise for a nonmaximally entangled state for the case of two von Neumann measurements per site, as first shown by Acin et al. [Phys. Rev. A65, 052325 (2002)]. This equivalence, however, breaks down when one takes into account the less-than-perfect quantum efficiency of detectors. Indeed, for the noiseless case, the threshold quantum efficiency above which there is no local and realistic description of the experiment for the optimal choice of measurements is found to be [Formula: see text] for the CH inequality, whereas it is equal to [Formula: see text] for the CHSH inequality.

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