E. A. Shevchenko scite author profile

Data on A's and K~ produced in central nucleus -nucleus collisions (C-C, C-Ne, O-Ne, C-Cu, C-Zr, C-Pb, O-Pb) at a 4.5 GeV/c momentum per incident nucleon obtained in the streamer chamber spectrometer SKM-200, are presented. Multiplicities, transverse momenta, rapidities and other characteristics are considered and compared with those for inelastic He-Li interactions. The polarization of A's was found to be consistent with zero. The upper limit of fl/A production ratio was estimated to be ~ 10 -2 with a 90 % confidence level. The results are compared with data of other experiments and some model calculations.

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Streamer chamber study of the cross sections and multiplicities in nucleus-nucleus interactions at the incident momentum of 4.5 GeV/c per nucleon

Aksinenko¹,

Anikina²,

Buttsev³

et al. 1980

Nuclear Physics A

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Efficient microextraction process exploiting spontaneous interfacial convection driven by Marangoni and electric field induced instability: A computational fluid dynamics study

Mitra

Singh

Shevchenko

et al. 2020

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The present study focuses on the component transfer from one liquid phase to another liquid phase, commonly known as the extraction process, performed in a microchannel in the presence of spontaneous interfacial convection, driven by either an interfacial tension gradient or an applied external electric field. Marangoni instability occurs as a result of a lateral gradient of interfacial tension existing along the interface of the two fluids. Nonequilibrium phenomena associated with factors such as temperature imbalance, a nonuniform distribution of surface-active components at the interface, evaporation, etc. can lead to the interfacial Marangoni instability. In the present study, first, we have explored temperature gradient driven Marangoni instability, which deforms the interface with significant acceleration and induces local convective mass transfer along with the conventional diffusion mode. Next, we have explored the same phenomenon in the presence of an external electric field, which can also deform the liquid-liquid interface almost instantaneously to a considerable extent. The relative strength of the mass transfer rate for different cases, such as temperature driven instability, in the presence of uniform and nonuniform electric fields has been reported in detail. It has also been observed that, due to the larger mass transfer area, the annular flow offers an enhanced rate of mass transfer compared to the stratified flow. Additionally, this article reports that the nonuniform electric field could influence the process of interfacial instability more strongly compared to the uniform electric field. The effect of the nonuniform electric field with different spatial periodicity on the extraction process has been studied in detail.

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Multicomponent counter mass transfer in liquid-liquid extraction in presence of spontaneous interfacial convection

Mitra

Ermakov

Ермаков

et al. 2021

Materials Today: Proceedings

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A study of pion production in 4.5 GeV/c)/nucleon 4He interactions with nuclear targets

et al. 1981

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Joint mass transfer of two components associated with the spontaneous interfacial convection in the liquid-liquid extraction system

Shevchenko

Mitra

Ермаков

et al. 2019

Chemical Engineering Science

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Preventing convexity at the narrow faces of continuous-cast billet

et al. 2015

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Transverse distortion of continuous-cast slab

et al. 2014

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E. A. Shevchenko

Characteristics of Λ andK 0 particles produced in central nucleus nucleus collisions at a 4.5 GeV/c momentum per incident nucleon

Streamer chamber study of the cross sections and multiplicities in nucleus-nucleus interactions at the incident momentum of 4.5 GeV/c per nucleon

Efficient microextraction process exploiting spontaneous interfacial convection driven by Marangoni and electric field induced instability: A computational fluid dynamics study

Multicomponent counter mass transfer in liquid-liquid extraction in presence of spontaneous interfacial convection

A study of pion production in 4.5 GeV/c)/nucleon 4He interactions with nuclear targets

Joint mass transfer of two components associated with the spontaneous interfacial convection in the liquid-liquid extraction system

Preventing convexity at the narrow faces of continuous-cast billet

Transverse distortion of continuous-cast slab

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