Spin Isotope Separation Under Incomplete Carbon Oxidation in a Low-Temperature Plasma in an External Magnetic Field

Мышкин, В. Ф.; Khan, V. A.; Plekhanov, V. G.; Izhoykin, Dmitry A.; Bespala, E. V.

doi:10.1007/s11182-015-0401-4

Cited by 11 publications

(6 citation statements)

References 6 publications

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“…Low-temperature plasma is often used to increase the reactivity of reactants [16]. Under lowtemperature plasma conditions the bulk of substance is in the radical form [14].…”

Section: Spin Mechanism Of the Isotope Separationmentioning

confidence: 99%

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Manifestation of the Spin in the Isotope Effects

Plekhanov¹,

Мышкин

Khan

et al. 2015

AMR

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Modern physics distinguishes three fundamental properties of atomic nuclei: mass; spin and related magnetic moment; volume (surrounding field strength), which are the source of isotope effects. The experiments showed that the isotope substitution of the light isotope with the hard one increased the band-to-band transition energy Eg, as well as the exciton binding energy Ebboth in semiconductors and insulators. The representative manifestation of the spin has been observed in photoluminescence excitation spectroscopy in highly enriched28Si crystals with shallow donor P, as well as in the separation of13C and12С isotope in magnetic field.

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“…Low-temperature plasma is often used to increase the reactivity of reactants [16]. Under lowtemperature plasma conditions the bulk of substance is in the radical form [14].…”

Section: Spin Mechanism Of the Isotope Separationmentioning

confidence: 99%

“…Therefore, major portion of energy is spent on the excitation of internal freedom degrees [17]. In low-temperature plasma particle collision the time does not exceed 10 -12 seconds [16]. During this time the spatial orientation of the valence electrons spins in a magnetic field does not change.…”

Section: Spin Mechanism Of the Isotope Separationmentioning

confidence: 99%

Manifestation of the Spin in the Isotope Effects

Plekhanov¹,

Мышкин

Khan

et al. 2015

AMR

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“…Moreover, in contrast to metals and feedstock for plastics, wood is a renewable resource which turns to be exhaustless when used competently. However, such weaknesses as the volume modification due to moisture and the development of fungus diseases is characteristic to wood [1][2][3][4]. Wood defects often change its mechanical and color properties, and such wood is not recommended for the use in load-bearing structures.…”

Section: Introductionmentioning

confidence: 99%

Modification of Wood Properties by Highly-Concentrated Plasma Flow

Volokitin

Skripnikova

Volokitin

et al. 2018

KEM

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“…The use of materials with a high-porous structure provides the increase in the friction coefficient at the beginning of braking and facilitates the formation of the low-slip film on the interface of friction surfaces. In engineering practice, hollow microspheres of different composition and size are used in the capacity of fillers for abrasive materials [1][2][3][4][5][6]. The introduction of corundum and silica-alumina microspheres provides a high performance of abrasive tools [7].…”

Section: Introductionmentioning

confidence: 99%

Resource-Saving Microsphere Technology for Friction Composite Materials

Шеховцов

Volokitin

et al. 2018

KEM

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The paper proposes the miscrosphere electro-plasma technology based on the processing of bottom ash generated by the Belovo Power Plant, Kemerovo region, Russia. During the electro-plasma processing, the current-voltage characteristic of plasma flow is determined. It is shown that it considerably depends on the gas rate. For example, at 300 А arc current and the increase of gas rate from 1.0 to 2.0 g/s, the arc voltage grows from 130 to 180 V. The X-ray photoelectron spectroscopy allows obtaining the distribution maps for the elemental composition of the microsphere surface and detecting the element concentration. From the infrared spectroscopy, it is possible to conclude that the amorphized layer of obtained microspheres is characterized by an ordered structure, because 1093.82 сm-1 maximum position of the absorption band for stretching vibration is as close as possible to that for silica glass (1100 сm-1) representing a more ordered polymer structure.

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Spin Isotope Separation Under Incomplete Carbon Oxidation in a Low-Temperature Plasma in an External Magnetic Field

Cited by 11 publications

References 6 publications

Manifestation of the Spin in the Isotope Effects

Manifestation of the Spin in the Isotope Effects

Modification of Wood Properties by Highly-Concentrated Plasma Flow

Resource-Saving Microsphere Technology for Friction Composite Materials

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