The theorem developed by John Bell constituted the starting point of a revolution that translated a philosophical question about the nature of reality into the broad and intense field of research of the quantum information technologies. We focus on a system of two qubits prepared in a random, mixed state, and we study the typical behavior of their nonlocality via the CHSH–Bell inequality. Afterward, motivated by the necessity of accounting for inefficiency in the state preparation, we address to what extent states close enough to one with a high degree of nonclassicality can violate local realism with a previously chosen experimental setup
Bell's theorem shows that local realistic theories place strong restrictions on observable correlati...
Assuming that there is no way of sending signals propagating faster than light and that free will ex...
The deterministic nature of classical physics does not allow true randomness production. Quantum phy...
The theorem developed by John Bell constituted the starting point of a revolution that translated a ...
According to quantum theory, the outcomes obtained by measuring an entangled state necessarily exhib...
Randomness is a fundamental feature of nature and a valuable resource for applications ranging from ...
4+18 pages, 2 figuresInternational audienceTwo parties sharing entangled quantum systems can generat...
One of the striking properties of quantum mechanics is the occurrence of the Bell-type non-locality....
htmlabstractThe nonlocal behavior of quantum mechanics can be used to generate guaranteed fresh rand...
The outcomes obtained in Bell tests involving two-outcome measurements on two subsystems can, in pri...
It is already known that one can always find a set of measurements on any two-qubit entangled state ...
Bell's theorem is a no-go theorem stating that quantum mechanics cannot be reproduced by a physical ...
Abstract. Bell inequalities are intended to show that local realist theories cannot describe the wor...
Many experimental setups in quantum physics use pseudorandomness in places where the theory requires...
We discuss the role of two fundamental assumptions locality and realism in Bell's considerations. We...
Bell's theorem shows that local realistic theories place strong restrictions on observable correlati...
Assuming that there is no way of sending signals propagating faster than light and that free will ex...
The deterministic nature of classical physics does not allow true randomness production. Quantum phy...
The theorem developed by John Bell constituted the starting point of a revolution that translated a ...
According to quantum theory, the outcomes obtained by measuring an entangled state necessarily exhib...
Randomness is a fundamental feature of nature and a valuable resource for applications ranging from ...
4+18 pages, 2 figuresInternational audienceTwo parties sharing entangled quantum systems can generat...
One of the striking properties of quantum mechanics is the occurrence of the Bell-type non-locality....
htmlabstractThe nonlocal behavior of quantum mechanics can be used to generate guaranteed fresh rand...
The outcomes obtained in Bell tests involving two-outcome measurements on two subsystems can, in pri...
It is already known that one can always find a set of measurements on any two-qubit entangled state ...
Bell's theorem is a no-go theorem stating that quantum mechanics cannot be reproduced by a physical ...
Abstract. Bell inequalities are intended to show that local realist theories cannot describe the wor...
Many experimental setups in quantum physics use pseudorandomness in places where the theory requires...
We discuss the role of two fundamental assumptions locality and realism in Bell's considerations. We...
Bell's theorem shows that local realistic theories place strong restrictions on observable correlati...
Assuming that there is no way of sending signals propagating faster than light and that free will ex...
The deterministic nature of classical physics does not allow true randomness production. Quantum phy...