We tackle the dynamical description of the quantum measurement process by explicitly addressing the interaction between the system under investigation and the measurement apparatus, the latter ultimately considered as a macroscopic quantum object. We consider arbitrary positive-operator-valued measures (POVMs) such that the orthogonality constraint on the measurement operators is relaxed. We show that, as with the well-known von Neumann scheme for projective measurements, it is possible to build up a dynamical model holding a unitary propagator characterized by a single time-independent Hamiltonian. This is achieved by modifying the standard model so as to compensate for the possible lack of orthogonality among the measurement operators of arbitrary POVMs.
Dynamical model for positive-operator-valued measures / De Pasquale Antonella, Foti Caterina,Cuccoli Alessandro, Giovannetti Vittorio, Verrucchi Paola. - In: PHYSICAL REVIEW A. - ISSN 2469-9926. - STAMPA. - 100:(2019), pp. 012130-012130. [10.1103/PhysRevA.100.012130]
Dynamical model for positive-operator-valued measures
De Pasquale Antonella;Foti Caterina;Cuccoli Alessandro;Verrucchi Paola
2019
Abstract
We tackle the dynamical description of the quantum measurement process by explicitly addressing the interaction between the system under investigation and the measurement apparatus, the latter ultimately considered as a macroscopic quantum object. We consider arbitrary positive-operator-valued measures (POVMs) such that the orthogonality constraint on the measurement operators is relaxed. We show that, as with the well-known von Neumann scheme for projective measurements, it is possible to build up a dynamical model holding a unitary propagator characterized by a single time-independent Hamiltonian. This is achieved by modifying the standard model so as to compensate for the possible lack of orthogonality among the measurement operators of arbitrary POVMs.
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