Add to ORKGThe transition from the quantum to the classical is governed by randomizing devices (RD), i.e., dynamical systems that are very sensitive to the environment. We show that, in the presence of RDs, the usual arguments based on the linearity of quantum mechanics that lead to the measurement problem do not apply. RDs are the source of probabilities in quantum mechanics. Hence, the reason for probabilities in quantum mechanics is the same as the reason for probabilities in other parts of physics, namely our ignorance of the state of the environment. This should not be confused with decoherence. The environment here plays several, equally important roles: it is the dump for energy and entropy of the RD, it puts the RD close to its transition poin...
Many results of modern physics--those of quantum mechanics, for instance--come in a probabilistic gu...
We consider the nature of quantum randomness and how one might have empirical evidence for it. We wi...
Randomness exists in physical systems as an intrinsic unpredictability or probabilistic feature. The...
The last few years have been characterized by a tremendous development of quantum information and pr...
We study the origin of the Born probability rule = j j2 in the de Broglie-Bohm pilot-wave formulat...
Quantum mechanics was developed as a response to the inadequacy of classical physics in explaining c...
We analyze the origin of quantum randomness within the framework of a completely deterministic theor...
Randomness is a defining element of mixing processes in nature and an essential ingredient to many p...
In general, any observed random process includes two qualitatively different forms of randomness: ap...
Randomness is a defining element of mixing processes in nature and an essential ingredient to many p...
We account for the origin of the laws of quantum probabilities in the de Broglie-Bohm (pilot wave) f...
In general, any observed random process includes two qualitatively different forms of randomness: ap...
Contrary to classical physics, the predictions of quantum theory for measurement outcomes are of a p...
We study the origin of the Born probability rule ρ = |ψ|2 in the de Broglie–Bohm pilot-wave formulat...
We consider the nature of quantum randomness and how one might have empirical evidence for it. We wi...
Many results of modern physics--those of quantum mechanics, for instance--come in a probabilistic gu...
We consider the nature of quantum randomness and how one might have empirical evidence for it. We wi...
Randomness exists in physical systems as an intrinsic unpredictability or probabilistic feature. The...
The last few years have been characterized by a tremendous development of quantum information and pr...
We study the origin of the Born probability rule = j j2 in the de Broglie-Bohm pilot-wave formulat...
Quantum mechanics was developed as a response to the inadequacy of classical physics in explaining c...
We analyze the origin of quantum randomness within the framework of a completely deterministic theor...
Randomness is a defining element of mixing processes in nature and an essential ingredient to many p...
In general, any observed random process includes two qualitatively different forms of randomness: ap...
Randomness is a defining element of mixing processes in nature and an essential ingredient to many p...
We account for the origin of the laws of quantum probabilities in the de Broglie-Bohm (pilot wave) f...
In general, any observed random process includes two qualitatively different forms of randomness: ap...
Contrary to classical physics, the predictions of quantum theory for measurement outcomes are of a p...
We study the origin of the Born probability rule ρ = |ψ|2 in the de Broglie–Bohm pilot-wave formulat...
We consider the nature of quantum randomness and how one might have empirical evidence for it. We wi...
Many results of modern physics--those of quantum mechanics, for instance--come in a probabilistic gu...
We consider the nature of quantum randomness and how one might have empirical evidence for it. We wi...
Randomness exists in physical systems as an intrinsic unpredictability or probabilistic feature. The...