V
Vladimir I. Man’ko
Researcher at Moscow Institute of Physics and Technology
Publications - 680
Citations - 14719
Vladimir I. Man’ko is an academic researcher from Moscow Institute of Physics and Technology. The author has contributed to research in topics: Quantum state & Probability distribution. The author has an hindex of 53, co-authored 665 publications receiving 13825 citations. Previous affiliations of Vladimir I. Man’ko include Lebedev Physical Institute & Tomsk State University.
Papers
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Tomography on f-oscillators
TL;DR: In this paper, the entanglement of even and odd f-coherent states is evaluated by the linear entropy, and the concept of nonlinear f-oscillators and their properties are recalled.
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On the information completeness of quantum tomograms
TL;DR: In this article, the authors address the problem of information completeness of quantum measurements in connection to quantum state tomography and with particular concern to quantum symplectic tomography, and introduce a measure of information incompleteness and apply it to symplectic quantum tomograms.
Posted Content
The replica method and entropy for mixture of two-mode even and odd schr\"odinger cat states
TL;DR: In this article, the replica method for calculating the von Neumann entropy is reviewed and explicit expression for the entropy of the mixed coherent states $|α>$ and $|β>$ is obtained using this method.
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Fresnel entropic characterization of optical Laguerre–Gaussian beams
TL;DR: In this article, a novel approach based on Fresnel tomography was proposed to determine the entropy of two-dimensional optical Laguerre-Gaussian beams and discussed, and numerical evaluations of the entropy distribution in the phase space associated with Laguero-Gauss modes were presented.
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Contextuality and the probability representation of quantum states
TL;DR: In this paper, the notions of contextuality and noncontextuality within the framework of the probability representation of quantum states are considered and an example of qutrit states and violation of the non-contextuality inequalities using the spin tomogram and tomographic symbols of the observables are presented.