Detection of eddy current in the striation

Karasev, V. Yu.; Дзлиева, Е. С.; Pavlov, S. I.

doi:10.1209/0295-5075/110/55002

Cited by 19 publications

(1 citation statement)

References 20 publications

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“…The flow reversal originates from the inversion of the asymmetric orientation of the ratchet potential depending on particle positions, as numerically demonstrated below. The position-dependent transport of dust particles observed in this dusty plasma ratchet, without a magnetic field, fundamentally differs from that observed in striations within the DC glow discharge under a magnetic field [41]. In the latter case, the dominant forces dictating the directional rotation of dust structures, including their inversion, are the dragging by the rotating gas and the ion drag.…”

Section: Positive To Negative Flow Reversalmentioning

confidence: 57%

Height-modulating horizontal transport of dust particles in a dusty plasma ratchet

Zhang,

Wang,

Yao

et al. 2024

Plasma Sources Sci. Technol.

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Dust particles are often electrostatically trapped and levitated within the non-electroneutral region of a sheath. The fascinating transport phenomena of dust particles strongly depend on the plasma parameters surrounding them within the sheath, whereas, that are quite difficult to obtain, leading to an unclear understanding of particle transport mechanisms. Here, we demonstrate a tunable horizontal transport of micron-sized dust particles by precisely manipulating their vertically suspended heights in an asymmetric ratchet sheath by designing dusty plasma ratchet. A collection of dust particles serves as micro-probes to detect the height-dependent transport properties and the feature of the sheath. Two methods are employed to lift or reduce the suspended heights of dust particles while maintaining the sheath unchanged. As the suspended heights of dust particles vary, their directional transport changes accordingly, including a flow reversal. A two-dimensional (2D) model of the ratchet sheath depicts the nonlinear distributions of plasma parameters and reveals that these unexpected transport phenomena can be attributed to the dependence of the electric ratchet potential and the resulting non-equilibrium net ion drag force on the suspended heights of dust particles. Our combined experimental and theoretical study provides insights into the fundamental transport properties of dust particles in an asymmetrical sheath.

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Section: Positive To Negative Flow Reversalmentioning

confidence: 57%

Height-modulating horizontal transport of dust particles in a dusty plasma ratchet

Zhang,

Wang,

Yao

et al. 2024

Plasma Sources Sci. Technol.

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The Dynamics of Dust Structures under Magnetic Field in Stratified Glow Discharge

Karasev

Дзлиева

Pavlov

et al. 2016

Contrib. Plasma Phys.

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A detailed research of mechanisms causing the rotation of dust structures formed in striations of the glow discharge in longitudinal magnetic field is presented. Literary data speak about sign‐variable dependence of angular velocity of dust structure on the magnetic field. The first done experiment proves that ion drag force is the reason of rotation with the negative projection of angular velocity on magnetic induction in small magnetic fields. The method of a variation of an ion flux in mixes of gases was used for the research. In the second experiment the gas rotation arising because of eddy electron current in the magnetic field was revealed by the method of probing of the discharge by dust particles. Estimates show that a prevalence of the mechanism of rotation of dust structures and correspondingly the direction of rotation depends both on discharge conditions and on the size of dust particles. (© 2016 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

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Method of Control of Ion Drag Force in Complex Plasmas

Pavlov

Дзлиева

Karasev

et al. 2016

Contrib. Plasma Phys.

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The research of dust structures dynamics in striations of the glow discharge in the magnetic field in the mixture of gases is presented. A variation of an ion flux velocity at an additive in light plasma forming gas of a small changeable portion of heavy and easily ionized components makes the control of ion drag force. It is shown that the small part of xenon (up to 5 percent) changes the static and dynamic properties of dust structure essentially. The increase of angular velocity of dust structure is revealed upon transition from pure helium to the mixture with small impurity of xenon. A reduction of vertical interpartical distance in dust structure in the mixture with xenon is detected. Results are agreed with data of calculation of characteristics of drift of ions in mixtures of gases.

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Detection of eddy current in the striation

Cited by 19 publications

References 20 publications

Height-modulating horizontal transport of dust particles in a dusty plasma ratchet

Height-modulating horizontal transport of dust particles in a dusty plasma ratchet

The Dynamics of Dust Structures under Magnetic Field in Stratified Glow Discharge

Method of Control of Ion Drag Force in Complex Plasmas

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