An attempt to solve the collapse problem in the framework of a time-symmetric quantum formalism is reviewed. Although the proposal does not look very attractive, its concept - a world defined by two quantum states, one evolving forwards and one evolving backwards in time - is found to be useful in modifying the many-worlds picture of Everett’s theory
This thesis attempts a full defence of the Everett ("many-worlds") interpreta- tion of quantum mecha...
Quantum mechanics allows one to independently select both the initial and final states of a single s...
We argue from conceptual point of view the relationship between quantum entanglement and m...
An attempt to solve the collapse problem in the framework of a time-symmetric quantum formalism is r...
Over many years, Aharonov and co-authors have proposed a new interpretation of quantum mechanics: th...
The Copenhagen interpretation of quantum entanglement experiments is at best incomplete, since the i...
The basic concept of the two-state vector formalism, which is the time symmetric approach to quantum...
This paper explores personal identity and persistence through time in the Many Worlds Int...
The many-worlds interpretation of quantum mechanics (MWI) is based on three key assumptions: (1) the...
What does realism about the quantum state imply? What follows when quantum theory is applied without...
Time-symmetric Approaches to Quantum Mechanics is a focus issue of Studies in History and Philosophy...
The many-worlds interpretation of quantum mechanics is based on three key assumptions: (1) the compl...
A novel puzzle for the notion of probability in the Many-Worlds interpretation of quantum mechanics ...
The two-state vector formalism motivates a time-symmetric interpretation of quantum mechanics that e...
Quantum Mechanics notoriously faces a measurement problem, the problem that the unitary time evoluti...
This thesis attempts a full defence of the Everett ("many-worlds") interpreta- tion of quantum mecha...
Quantum mechanics allows one to independently select both the initial and final states of a single s...
We argue from conceptual point of view the relationship between quantum entanglement and m...
An attempt to solve the collapse problem in the framework of a time-symmetric quantum formalism is r...
Over many years, Aharonov and co-authors have proposed a new interpretation of quantum mechanics: th...
The Copenhagen interpretation of quantum entanglement experiments is at best incomplete, since the i...
The basic concept of the two-state vector formalism, which is the time symmetric approach to quantum...
This paper explores personal identity and persistence through time in the Many Worlds Int...
The many-worlds interpretation of quantum mechanics (MWI) is based on three key assumptions: (1) the...
What does realism about the quantum state imply? What follows when quantum theory is applied without...
Time-symmetric Approaches to Quantum Mechanics is a focus issue of Studies in History and Philosophy...
The many-worlds interpretation of quantum mechanics is based on three key assumptions: (1) the compl...
A novel puzzle for the notion of probability in the Many-Worlds interpretation of quantum mechanics ...
The two-state vector formalism motivates a time-symmetric interpretation of quantum mechanics that e...
Quantum Mechanics notoriously faces a measurement problem, the problem that the unitary time evoluti...
This thesis attempts a full defence of the Everett ("many-worlds") interpreta- tion of quantum mecha...
Quantum mechanics allows one to independently select both the initial and final states of a single s...
We argue from conceptual point of view the relationship between quantum entanglement and m...