We consider how to define a natural probability distribution over worlds within a simple class of deterministic many-worlds theories. This can help us understand the typical properties of worlds within such states, and hence explain the empirical success of quantum theory within a many-worlds framework. We give three reasonable axioms which lead to the Born rule in the case of quantum theory, and also yield natural results in other cases, including a many-worlds variant of classical stochastic dynamics.Comment: 10 page
This introductory chapter summarizes the principal positive theses of the book (Section 1), namely, ...
In this paper we will present a modified formulation of generalized probabilistic theories that will...
A novel puzzle for the notion of probability in the Many-Worlds interpretation of quantum mechanics ...
This work attempts a fundamental formulation of physics based on probabilities. The basic assumption...
Quantum Mechanics notoriously faces a measurement problem, the problem that the unitary time evoluti...
A novel puzzle for the notion of probability in the Many-Worlds interpretation of quantum mechanics ...
We defend the many-worlds interpretation of quantum mechanics (MWI) against the objection that it ca...
We argue from conceptual point of view the relationship between quantum entanglement and m...
According to the many-worlds interpretation of quantum mechanics (MWI), all results occur after a me...
Abstract It is argued that, although in the Many-Worlds Interpretation of quantum mechanics there is...
Any attempt to introduce probabilities into quantum mechanics faces difficulties due to the mathemat...
It is argued that, although in the Many-Worlds Interpretation of quantum mechanics there is no ``pro...
We defend the many-worlds interpretation of quantum mechanics (MWI) against the objection that it ca...
In ordinary situations involving a small part of the universe, Born's rule seems to work well for ca...
Deviations from exact decoherence make little difference for large-amplitude quantum states, but can...
This introductory chapter summarizes the principal positive theses of the book (Section 1), namely, ...
In this paper we will present a modified formulation of generalized probabilistic theories that will...
A novel puzzle for the notion of probability in the Many-Worlds interpretation of quantum mechanics ...
This work attempts a fundamental formulation of physics based on probabilities. The basic assumption...
Quantum Mechanics notoriously faces a measurement problem, the problem that the unitary time evoluti...
A novel puzzle for the notion of probability in the Many-Worlds interpretation of quantum mechanics ...
We defend the many-worlds interpretation of quantum mechanics (MWI) against the objection that it ca...
We argue from conceptual point of view the relationship between quantum entanglement and m...
According to the many-worlds interpretation of quantum mechanics (MWI), all results occur after a me...
Abstract It is argued that, although in the Many-Worlds Interpretation of quantum mechanics there is...
Any attempt to introduce probabilities into quantum mechanics faces difficulties due to the mathemat...
It is argued that, although in the Many-Worlds Interpretation of quantum mechanics there is no ``pro...
We defend the many-worlds interpretation of quantum mechanics (MWI) against the objection that it ca...
In ordinary situations involving a small part of the universe, Born's rule seems to work well for ca...
Deviations from exact decoherence make little difference for large-amplitude quantum states, but can...
This introductory chapter summarizes the principal positive theses of the book (Section 1), namely, ...
In this paper we will present a modified formulation of generalized probabilistic theories that will...
A novel puzzle for the notion of probability in the Many-Worlds interpretation of quantum mechanics ...