The two-state vector formalism motivates a time-symmetric interpretation of quantum mechanics that entails a resolution of the measurement problem. We revisit a post-selection-assisted collapse model previously suggested by us, claiming that unlike the thermodynamic arrow of time, it can lead to reversible dynamics at the macroscopic level. In addition, the proposed scheme enables us to characterize the classical-quantum boundary. We discuss the limitations of this approach and its broad implications for other areas of physics
I give an explanation of the thermodynamic arrow-of-time (namely entropy increases with time) within...
Quantum mechanics allows one to independently select both the initial and final states of a single s...
Here we present the two-time tensor formalism unifying in a general manner the standard quantum mech...
The two-state vector formalism motivates a time-symmetric interpretation of quantum mechanics that e...
Over many years, Aharonov and co-authors have proposed a new interpretation of quantum mechanics: th...
We suggest an interpretation of quantum mechanics, inspired by the ideas of Aharonov et al. of a tim...
Proposals to solve the problems of quantum measurement via non-linear CPT-violating modifications of...
In this paper we present the two-state vector formalism of quantum mechanics. It is a time-symmetriz...
It has been argued that measurement-induced collapses in Orthodox Quantum Mechanics generates an int...
It has been argued that measurement-induced collapses in Orthodox Quantum Mechanics generates an int...
An attempt to solve the collapse problem in the framework of a time-symmetric quantum formalism is r...
Deriving an arrow of time from time-reversal symmetric microscopic dynamics is a fundamental open pr...
Over many years, Aharonov and co-authors have proposed a new interpretation of quantum mechanics: th...
The basic concept of the two-state vector formalism, which is the time symmetric approach to quantum...
Microscopic physical laws are time-symmetric, hence, a priori there exists no preferential temporal ...
I give an explanation of the thermodynamic arrow-of-time (namely entropy increases with time) within...
Quantum mechanics allows one to independently select both the initial and final states of a single s...
Here we present the two-time tensor formalism unifying in a general manner the standard quantum mech...
The two-state vector formalism motivates a time-symmetric interpretation of quantum mechanics that e...
Over many years, Aharonov and co-authors have proposed a new interpretation of quantum mechanics: th...
We suggest an interpretation of quantum mechanics, inspired by the ideas of Aharonov et al. of a tim...
Proposals to solve the problems of quantum measurement via non-linear CPT-violating modifications of...
In this paper we present the two-state vector formalism of quantum mechanics. It is a time-symmetriz...
It has been argued that measurement-induced collapses in Orthodox Quantum Mechanics generates an int...
It has been argued that measurement-induced collapses in Orthodox Quantum Mechanics generates an int...
An attempt to solve the collapse problem in the framework of a time-symmetric quantum formalism is r...
Deriving an arrow of time from time-reversal symmetric microscopic dynamics is a fundamental open pr...
Over many years, Aharonov and co-authors have proposed a new interpretation of quantum mechanics: th...
The basic concept of the two-state vector formalism, which is the time symmetric approach to quantum...
Microscopic physical laws are time-symmetric, hence, a priori there exists no preferential temporal ...
I give an explanation of the thermodynamic arrow-of-time (namely entropy increases with time) within...
Quantum mechanics allows one to independently select both the initial and final states of a single s...
Here we present the two-time tensor formalism unifying in a general manner the standard quantum mech...