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.
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Tomographic discord for a system of two coupled nanoelectric circuits
TL;DR: In this article, the authors considered quantum correlations and quantum discord for two-qubit states with X-type density matrices in the tomographic framework of quantum mechanics by introducing different measurement schemes.
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Probability representation and new entropic uncertainty relations for symplectic and optical tomograms
TL;DR: In this article, entropic uncertainty relations for Shannon entropies associated with tomographic probability distributions of continuous quadratures are reviewed in the form of inequalities for integrals containing the tomograms of quantum states and deformation parameter.
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New Inequality for Density Matrices of Single Qudit States
TL;DR: Using the monotonicity of relative entropy of composite quantum systems, this article obtained new entropic inequalities for arbitrary density matrices of single qudit states, and the qubit portrait bound for the distance between the qutrit states was considered in explicit form.
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Time-dependent oscillator with Kronig-Penney excitation
TL;DR: In this article, exact solutions of the time-dependent Schrodinger equation for a quantum oscillator subject to periodical frequency δ-kicks are obtained and the corresponding squeezing coefficients and the energy increase rate in terms of Chebyshev polynomials.
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Low energy wave packet tunneling from a parabolic potential well through a high potential barrier
TL;DR: In this paper, the problem of wave packet tunneling in a potential V(x)= 1 2 mω 2 (x 2 −δx v ) with v > 2 is considered in the case when the barrier height is much greater than ħω and the difference between the average energy of the packet and the oscillator ground state energy 1 2 h ω is sufficiently small.