Add to ORKGThe ontological status of the wave function in quantum mechanics has been analyzed in the context of conventional projective measurements. These analyses are usually based on some nontrivial assumptions, e.g. a preparation independence assumption is needed to prove the PBR theorem. In this paper, we give a PBR-like argument for psi-ontology in terms of protective measurements, by which one can directly measure the expectation values of observables on a single quantum system. The proof does not resort to nontrivial assumptions such as preparation independence assumption
This article introduces the method of protective measurement and discusses its possible implications...
Protective measurements offer an intriguing method for measuring the wave function of a single quant...
According to Healey's pragmatist quantum realism, the only physical properties of quantum systems ar...
The ontological status of the wave function in quantum mechanics has been analyzed in the context of...
The ontological status of the wave function in quantum mechanics is usually analyzed in the context ...
Recently the first protective measurement has been realized in experiment [Nature Phys. 13, 1191 (20...
The ontological model framework provides a rigorous approach to address the question of whether the ...
The existing psi-ontology theorems are based on a simplified assumption of the ontological models fr...
It has been debated whether protective measurement implies the reality of the wave function. In this...
The ontological model framework provides a rigorous approach to address the question of whether the ...
Based on an analysis of protective measurements, we show that the quantum state represents the physi...
In QBism the wave function does not represent an element of physical reality external to the agent, ...
Protective measurement might be taken to put the last nail in the coffin of ensemble interpretations...
In this article, we give a clearer argument for the reality of the wave function in terms of protect...
This article introduces the method of protective measurement and discusses its possible implications...
Protective measurements offer an intriguing method for measuring the wave function of a single quant...
According to Healey's pragmatist quantum realism, the only physical properties of quantum systems ar...
The ontological status of the wave function in quantum mechanics has been analyzed in the context of...
The ontological status of the wave function in quantum mechanics is usually analyzed in the context ...
Recently the first protective measurement has been realized in experiment [Nature Phys. 13, 1191 (20...
The ontological model framework provides a rigorous approach to address the question of whether the ...
The existing psi-ontology theorems are based on a simplified assumption of the ontological models fr...
It has been debated whether protective measurement implies the reality of the wave function. In this...
The ontological model framework provides a rigorous approach to address the question of whether the ...
Based on an analysis of protective measurements, we show that the quantum state represents the physi...
In QBism the wave function does not represent an element of physical reality external to the agent, ...
Protective measurement might be taken to put the last nail in the coffin of ensemble interpretations...
In this article, we give a clearer argument for the reality of the wave function in terms of protect...
This article introduces the method of protective measurement and discusses its possible implications...
Protective measurements offer an intriguing method for measuring the wave function of a single quant...
According to Healey's pragmatist quantum realism, the only physical properties of quantum systems ar...