Add to ORKGIn this paper we argue that the emergence of the classical world from the underlying quantum reality involves two elements: self-induced decoherence and macroscopicity. Self-induced decoherence does not require the openness of the system and its interaction with the environment: a single closed system can decohere when its Hamiltonian has continuous spectrum. We show that, if the system is macroscopic enough, after self-induced decoherence it can be described as an ensemble of classical distributions weighted by their corresponding probabilities. We also argue that classicality is an emergent property that arises when the behavior of the system is described from an observational perspective
The decoherence mechanism signals the limits beyond which the system dynamics ap preaches the classi...
Self-induced decoherence formalism and the corresponding classical limit are extended from quantum i...
Self-induced decoherence formalism and the corresponding classical limit are extended from quantum i...
In this paper we argue that the emergence of the classical world from the underlying quantum reality...
In this paper we argue that the emergence of the classical world from the underlying quantum reality...
In this paper we argue that the emergence of the classical world from the underlying quantum reality...
Our account of the problem of the classical limit of quantum mechanics involves two elements. The fi...
We consider the claim that decoherence explains the emergence of classicality in quantum systems, a...
Based on the superposition principle, any two states of a quantum system may be coherently superpose...
Based on the superposition principle, any two states of a quantum system may be coherently superpose...
Blanchard P, Olkiewicz R. Decoherence induced transition from quantum to classical dynamics. REVIEWS...
At present there is a consensus about the fact that the emergence of the classical world from the un...
The relationship between classical and quantum theory is of central importance to the philosophy of ...
Based on the superposition principle, any two states of a quantum system may be coherently superpose...
As a direct consequence of the interplay between the superposition principle of quantum mechanics an...
The decoherence mechanism signals the limits beyond which the system dynamics ap preaches the classi...
Self-induced decoherence formalism and the corresponding classical limit are extended from quantum i...
Self-induced decoherence formalism and the corresponding classical limit are extended from quantum i...
In this paper we argue that the emergence of the classical world from the underlying quantum reality...
In this paper we argue that the emergence of the classical world from the underlying quantum reality...
In this paper we argue that the emergence of the classical world from the underlying quantum reality...
Our account of the problem of the classical limit of quantum mechanics involves two elements. The fi...
We consider the claim that decoherence explains the emergence of classicality in quantum systems, a...
Based on the superposition principle, any two states of a quantum system may be coherently superpose...
Based on the superposition principle, any two states of a quantum system may be coherently superpose...
Blanchard P, Olkiewicz R. Decoherence induced transition from quantum to classical dynamics. REVIEWS...
At present there is a consensus about the fact that the emergence of the classical world from the un...
The relationship between classical and quantum theory is of central importance to the philosophy of ...
Based on the superposition principle, any two states of a quantum system may be coherently superpose...
As a direct consequence of the interplay between the superposition principle of quantum mechanics an...
The decoherence mechanism signals the limits beyond which the system dynamics ap preaches the classi...
Self-induced decoherence formalism and the corresponding classical limit are extended from quantum i...
Self-induced decoherence formalism and the corresponding classical limit are extended from quantum i...