V. Karpenko scite author profile

V. Karpenko

4Publications

3Citation Statements Received

95Citation Statements Given

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Affiliations

Taras Shevchenko National University of Kyiv, National Academy of Sciences of Ukraine, Ukrainian State University of Chemical Technology

Publications

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Modeling of Bacterial Chemotaxis in a Medium with a Repellent

Vasilev¹,

Karpenko²

2018

Ukr. J. Phys.

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The bacterial chemotaxis in a one-dimensional system with a repellent has been considered. The process of bacterial redistribution in the system is analyzed, and a corresponding phenomenological model is proposed, which makes allowance for the diffusion of bacteria and their motion caused by the repellent gradient. The repellent injection into the system is governed by boundary conditions. In the framework of this model, the chemotaxis sensitivity function, a numerical characteristic, which describes the nonuniformity in the bacterial distribution, is calculated. A dependence of the chemotaxis sensitivity function on the repellent concentration at the system boundaries is obtained. A relation between the bacterial distribution and the parameters of repellent distribution is found.

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Paramagnetic resonance of ions of the iron group in single crystals of periclase

Vlasova¹,

Kakazei²,

Karpenko³

et al. 1967

Powder Metall Met Ceram

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Effect of lining materials on the moisture content of nitrogen — hydrogen atmospheres

et al. 1970

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Relativistic selfinteracting particle-antiparticle system of bosons

et al. 2020

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Thermodynamic properties of a system of an interacting boson particles and antiparticles at high temperatures are studied within the framework of the thermodynamically consistent Skyrme-like mean-field model. The mean field contains both attractive and repulsive terms. Self-consistency relations between the mean field and thermodynamic functions are derived. We assume a conservation of the isospin density for all temperatures. It is shown that, independently of the strength of the attractive mean field, at the critical temperature Tc the system undergoes the phase transition of second order to the Bose-Einstein condensate, which exists in the temperature interval 0 ≤ T ≤ Tc . It is obtained that the condensation represents a discontinuity of the derivative of the specific heat at T = Tc .

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V. Karpenko

Modeling of Bacterial Chemotaxis in a Medium with a Repellent

Paramagnetic resonance of ions of the iron group in single crystals of periclase

Effect of lining materials on the moisture content of nitrogen — hydrogen atmospheres

Relativistic selfinteracting particle-antiparticle system of bosons

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V. Karpenko

Modeling of Bacterial Chemotaxis in a Medium with a Repellent

Paramagnetic resonance of ions of the iron group in single crystals of periclase

Effect of lining materials on the moisture content of nitrogen — hydrogen atmospheres

Relativistic selfinteracting particle­-antiparticle system of bosons

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Product

Resources

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Relativistic selfinteracting particle-antiparticle system of bosons