Seminar: Solving Two-Level Optimization Problems Related to Bell’s Theorem

Speaker: 

Jacek Aleksander Gruca, Uniwersytet Gdański

Date: 

18/04/2018 - 13:15

In this talk I will summarize research of nonclassical properties of quantum entangled states. For this purpose we use a method, which employs both linear programming and nonlinear optimization. This method is used to calculate boundaries of classical description (local and realistic) of popular families of multi-particle quantum states.

Seminar photos: 
Jacek Aleksander Gruca - Dwupoziomowa optymalizacja związana z twierdzeniem BellaJacek Aleksander Gruca - Dwupoziomowa optymalizacja związana z twierdzeniem BellaJacek Aleksander Gruca - Dwupoziomowa optymalizacja związana z twierdzeniem Bella

Author: Zbigniew Puchała | Post date: 13.04.2018 | Last modified: 18.06.2018

Historia zmian

Data aktualizacji: 18/06/2018 - 09:16; autor zmian: ()

In this talk I will summarize research of nonclassical properties of quantum entangled states. For this purpose we use a method, which employs both linear programming and nonlinear optimization. This method is used to calculate boundaries of classical description (local and realistic) of popular families of multi-particle quantum states.
Data aktualizacji: 18/06/2018 - 09:14; autor zmian: ()

In this talk I will summarize research of nonclassical properties of quantum entangled states. For this purpose we use a method, which employs both linear programming and nonlinear optimization. This method is used to calculate boundaries of classical description (local and realistic) of popular families of multi-particle quantum states.
Data aktualizacji: 11/05/2018 - 12:05; autor zmian: Jarosław Miszczak (miszczak@iitis.pl)

In this talk I will summarize research of nonclassical properties of quantum entangled states. For this purpose we use a method, which employs both linear programming and nonlinear optimization. This method is used to calculate boundaries of classical description (local and realistic) of popular families of multi-particle quantum states.
Data aktualizacji: 11/05/2018 - 12:05; autor zmian: Jarosław Miszczak (miszczak@iitis.pl)

In this talk I will summarize research of nonclassical properties of quantum entangled states. For this purpose we use a method, which employs both linear programming and nonlinear optimization. This method is used to calculate boundaries of classical description (local and realistic) of popular families of multi-particle quantum states.
Data aktualizacji: 11/05/2018 - 11:36; autor zmian: ()

In this talk I will summarize research of nonclassical properties of quantum entangled states. For this purpose we use a method, which employs both linear programming and nonlinear optimization. This method is used to calculate boundaries of classical description (local and realistic) of popular families of multi-particle quantum states.
Data aktualizacji: 13/04/2018 - 14:29; autor zmian: Zbigniew Puchała (zbyszek@iitis.pl)

In this talk I will summarize research of nonclassical properties of quantum entangled states. For this purpose we use a method, which employs both linear programming and nonlinear optimization. This method is used to calculate boundaries of classical description (local and realistic) of popular families of multi-particle quantum states.
Data aktualizacji: 13/04/2018 - 14:29; autor zmian: Zbigniew Puchała (zbyszek@iitis.pl)