Quantum probability is very different from classical probability. Part of this difference is manifested in the generic inability of stochastic processes to describe the results of multi-time measurements of quantum mechanical systems and the fact that the complex-valued temporal correlation functions of quantum theory have no interpretation in terms of multi-time measurements. By analysing experiments involving measurements at more than one moments of time, we conclude that this inequivalence must be manifested either as a failure of the quantum logic or as the inability to define probabilities in multi-time measurements because the relative frequencies do not converge. These alternatives can be empirically distinguished as they correspond ...
. We analyse the thesis of Kummerer and Maassen (1996) that classical probability is unable to model...
Suppose we make a series of measurements on a chosen quantum system. The outcomes of the measurement...
Traditional quantum mechanics (QM) predicts probabilities of different events. If we describe an ele...
Quantum probability is very different from classical probability. Part of this difference is manifes...
Understanding the demarcation line between classical and quantum is an important issue in modern phy...
A theoretical aspect of quantum mechanical probabilities is studied. In particular, it is investigat...
In classical mechanics, x(t) and all higher derivatives are known for a particle. Such is not the ca...
We discuss the definition of quantum probability in the context of "timeless" general--relativistic ...
In this paper we study the construction of probability densities for time-of-flight in quantum mecha...
In quantum mechanics, time plays a role unlike any other observable. We find that measuring whether...
In the first part of this two-part article (Aerts & Sassoli de Bianchi, 2014), we have intro-duc...
Textbook quantum mechanics treats time as a classical parameter and not as a quantum observable with...
A sequence of moments obtained from statistical trials encodes a classical probability distribution....
It is argued that, although in the Many-Worlds Interpretation of quantum mechanics there is no \prob...
It is argued that probability should be defined implicitly by the distributions of possible measurem...
. We analyse the thesis of Kummerer and Maassen (1996) that classical probability is unable to model...
Suppose we make a series of measurements on a chosen quantum system. The outcomes of the measurement...
Traditional quantum mechanics (QM) predicts probabilities of different events. If we describe an ele...
Quantum probability is very different from classical probability. Part of this difference is manifes...
Understanding the demarcation line between classical and quantum is an important issue in modern phy...
A theoretical aspect of quantum mechanical probabilities is studied. In particular, it is investigat...
In classical mechanics, x(t) and all higher derivatives are known for a particle. Such is not the ca...
We discuss the definition of quantum probability in the context of "timeless" general--relativistic ...
In this paper we study the construction of probability densities for time-of-flight in quantum mecha...
In quantum mechanics, time plays a role unlike any other observable. We find that measuring whether...
In the first part of this two-part article (Aerts & Sassoli de Bianchi, 2014), we have intro-duc...
Textbook quantum mechanics treats time as a classical parameter and not as a quantum observable with...
A sequence of moments obtained from statistical trials encodes a classical probability distribution....
It is argued that, although in the Many-Worlds Interpretation of quantum mechanics there is no \prob...
It is argued that probability should be defined implicitly by the distributions of possible measurem...
. We analyse the thesis of Kummerer and Maassen (1996) that classical probability is unable to model...
Suppose we make a series of measurements on a chosen quantum system. The outcomes of the measurement...
Traditional quantum mechanics (QM) predicts probabilities of different events. If we describe an ele...