Plasma mass separation in configuration with potential well

Liziakin, G. D.; Антонов, Н. Н.; Smirnov, V. S.; Timirkhanov, R. A.; Oiler, Andrey Pavlovich; Usmanov, R. A.; Melnikov, A.; Vorona, N. A.; Kislenko, Sergey A.; Gavrikov, A. V.; Smirnov, V. P.

doi:10.1088/1361-6463/ac128e

Cited by 18 publications

(28 citation statements)

References 56 publications

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“…Having created a specified distribution of the electrostatic potential, the flows of the injected mixture, consisting of active charged particles, can be spatially separated, and the result of such separation has been demonstrated experimentally [ 19 ]. This approach to separating elements into groups may be very useful to reprocess spent nuclear fuel (SNF).…”

Section: Introductionmentioning

confidence: 99%

“…Additionally, mass separation in a configuration with a potential well is quite promising. The configuration of electromagnetic fields is chosen so that heavy particles fall into the potential well and light ones do not [ 19 , 36 ].…”

Section: Introductionmentioning

confidence: 99%

“…Plasma mass separation in the configuration of electromagnetic fields, with a potential well for ions in a homogeneous axial magnetic field, is investigated in Reference [ 19 ]. Figure 1 shows the main elements of such a separation scheme.…”

Section: Introductionmentioning

confidence: 99%

“…The overlap occurs because of an increase in the dispersion (cross-section) of the beams in the components of the mixture. The possible factors leading to this are the scattering of particles by initial velocities and energies, distortions of the potential profile as a result of the injection, as well as fluctuations in the plasma potential [ 19 , 39 ]. Such a source of significant potential fluctuations in the Penning discharge could be a rotating structure, the characteristics of which have been described in Reference [ 40 ].…”

Section: Introductionmentioning

confidence: 99%

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The Optimal Axis-Symmetrical Plasma Potential Distribution for Plasma Mass Separation

et al. 2022

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The mass separation of chemical element mixtures is a relevant task for numerous applications in the nuclear power industry. One of the promising approaches to solve this problem is plasma mass separation. In a recent study, the efficiency of plasma mass separation in a configuration with a potential well and a homogeneous magnetic field was experimentally demonstrated. This article examines the possibility of increasing the distance between the deposition regions of charged particles with different masses by varying the profile of the electric field potential. Such correlation can be considered as the control in a system of active particles. A cylindrical coordinate system is used. The electric field is axially symmetrical, and the magnetic field is directed along the axis of the symmetry. The corresponding mathematical problem was solved in a general way. The criteria for increasing the distance between the deposition areas of the “light” and “heavy” components of the mixture have been formulated. A high sensitivity of particle trajectories to the electric field potential in the region of the pericentres of the trajectories of charged particles was detected. Recommendations for the practical implementation of the optimal spatial separation of ion fluxes are proposed.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The Optimal Axis-Symmetrical Plasma Potential Distribution for Plasma Mass Separation

et al. 2022

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“…Весьма многообещающими представляются плазменные методы, при которых смесь тяжелых и легких компонент переводится в плазменное состояние и далее разделяется в электрических и магнитных полях. Настоящая работа является частью исследований, проводимых в рамках разработки одного из таких методов на установке LaPlaS [1,2].…”

Section: Introductionunclassified

Скорость Вращения Плазмы В Отражательном Разряде С Термокатодом

Ойлер¹,

Лизякин²,

Гавриков³

et al. 2022

Журнал Технической Физики

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This work is devoted to determining the azimuthal ion rotation velocity in a reflex discharge with a thermionic cathode. For the experimental determination of the ion velocity, a Mach probe with directional particle collection was used. The Mach probe rotation velocity measurements are compared with the drift speed in crossed ExB fields, where the radial electric field is measured with an emissive probe. The rotation of the plasma was found to be predominantly due to this drift, corrected for centrifugal effects. One of the important results of the work is the determination of the ion temperature. The obtained value Ti=0.12 eV, agrees with the ion temperature estimates in works with similar experimental conditions. A general parameter has been obtained that makes it possible to estimate the necessity to take into account centrifugal effects under given conditions.

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Impact of azimuthal forcing on the Brillouin limit in a collisional two-species Ohkawa filter

Nicolas

2022

Physics of Plasmas

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This paper investigates the physics of plasma separation in a two species rotating collisional Ohkawa filter, when the source of rotation is an orbital angular momentum carrying wave. The electric field is treated self-consistently with ion and electron radial motion. The injection of angular momentum causes radial currents leading to charge penetration and electric field build up. The electric field varies until an equilibrium with the friction forces is reached. Both collisions with neutrals and Coulomb collisions are considered. In the case where the electric field is driven by the resonant wave, there is no collisional breakdown of the Brillouin limit [Rax et al., Phys. Plasmas 22, 092101 (2015)]; on the contrary, the maximum achievable electric field decreases when the collision frequency is increased. When two species are present, one that undergoes the wave forcing while the second does not interact with the wave, we find the following: the first species is confined, while the second species can be expelled or confined depending on the charge to mass ratio and the collisionalities. Assuming equal charge numbers, if the second species is the heavy one, it is always expelled, which is a standard result. When the second species is the light one, it can also be expelled in the common case where neutral collisions dominate over Coulomb collisions, which constitutes a new result.

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Plasma mass separation in configuration with potential well

Cited by 18 publications

References 56 publications

The Optimal Axis-Symmetrical Plasma Potential Distribution for Plasma Mass Separation

The Optimal Axis-Symmetrical Plasma Potential Distribution for Plasma Mass Separation

Скорость Вращения Плазмы В Отражательном Разряде С Термокатодом

Impact of azimuthal forcing on the Brillouin limit in a collisional two-species Ohkawa filter

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