Add to ORKGIn 2004 Robert W. Spekkens introduced a toy theory designed to make a case for the epistemic view of quantum mechanics. But how does Spekkens’ toy model differ from quantum theory? While some differences are well-established, we attempt to approach this question from a tomographic point of view. More specifically, we provide experimentally viableprocedureswhichenablesustocompletelycharacterizethestatesandgatesthatare available in the toy model. We show that, in contrast to quantum theory, decompositions of transformations in the toy model must be done in a non-linear fashion
We demonstrate the possibility of practical tomographic determination of arbitrary input-output tran...
The mechanism of describing quantum states by standard probabilities (tomograrns) instead of wave fu...
Quantum systems show contextuality. More precisely, it is impossible to reproduce the quantum-mechan...
In 2004 Robert W. Spekkens introduced a toy theory designed to make a case for the epistemic view of...
In order to better understand a complex theory like quantum mechanics, it is sometimes useful to tak...
Starting from the famous Pauli problem on the possibility of associating quantum states with probabi...
textIn recent years there has been a significant development of the dynamical map formalism for init...
We propose and evaluate experimentally an approach to quantum process tomography that completely rem...
The toy model of Spekkens is a formalism which can partially describe quantum mechanics. The theory ...
International audienceIn this series of papers, we investigate the projective framework initiated by...
Information is physical, and for a physical theory to be universal, it should model observers as phy...
Quantum process tomography conventionally uses a multitude of initial quantum states and then perfor...
We establish a general principle for the tomographic approach to quantum state reconstruction, till ...
We present in a unified manner the existing methods for scalable partial quantum process tomography....
Process tomography, the experimental characterization of physical processes, is a central task in sc...
We demonstrate the possibility of practical tomographic determination of arbitrary input-output tran...
The mechanism of describing quantum states by standard probabilities (tomograrns) instead of wave fu...
Quantum systems show contextuality. More precisely, it is impossible to reproduce the quantum-mechan...
In 2004 Robert W. Spekkens introduced a toy theory designed to make a case for the epistemic view of...
In order to better understand a complex theory like quantum mechanics, it is sometimes useful to tak...
Starting from the famous Pauli problem on the possibility of associating quantum states with probabi...
textIn recent years there has been a significant development of the dynamical map formalism for init...
We propose and evaluate experimentally an approach to quantum process tomography that completely rem...
The toy model of Spekkens is a formalism which can partially describe quantum mechanics. The theory ...
International audienceIn this series of papers, we investigate the projective framework initiated by...
Information is physical, and for a physical theory to be universal, it should model observers as phy...
Quantum process tomography conventionally uses a multitude of initial quantum states and then perfor...
We establish a general principle for the tomographic approach to quantum state reconstruction, till ...
We present in a unified manner the existing methods for scalable partial quantum process tomography....
Process tomography, the experimental characterization of physical processes, is a central task in sc...
We demonstrate the possibility of practical tomographic determination of arbitrary input-output tran...
The mechanism of describing quantum states by standard probabilities (tomograrns) instead of wave fu...
Quantum systems show contextuality. More precisely, it is impossible to reproduce the quantum-mechan...