2020
DOI: 10.1002/ctpp.202000110
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Rotational properties of annulus dusty plasma in a strong magnetic field

Abstract: The collective dynamics of an annulus dusty plasma formed between a co-centric conducting (non-conducting) disk and ring configuration is studied in a strongly magnetized radiofrequency (rf) discharge. A superconducting electromagnet is used to introduce a homogeneous magnetic field to the dusty plasma medium. In the absence of the magnetic field, the dust grains exhibit thermal motion around their equilibrium position. The dust grains start to rotate in the anticlockwise direction with increasing magnetic fie… Show more

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Cited by 12 publications
(13 citation statements)
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“…The propagation characteristics of dust acoustic modes in low-temperature direct current (DC) and rf plasma [15][16][17]32,[74][75][76][77] were explained based on the available theoretical models. [20,67,78,79] Recently, Choudhary et al [60] and Melzer et al [61] conducted experimental studies on self-excited dust acoustic waves (DAWs) in the presence of external magnetic field and observed the damping as well as modification in propagation parameters at higher magnetic field. The role of external magnetic field on propagation characteristics of DAWs in capacitive coupled discharge is shown in Figure 1.…”
Section: Dust Acoustic Wavesmentioning
confidence: 99%
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“…The propagation characteristics of dust acoustic modes in low-temperature direct current (DC) and rf plasma [15][16][17]32,[74][75][76][77] were explained based on the available theoretical models. [20,67,78,79] Recently, Choudhary et al [60] and Melzer et al [61] conducted experimental studies on self-excited dust acoustic waves (DAWs) in the presence of external magnetic field and observed the damping as well as modification in propagation parameters at higher magnetic field. The role of external magnetic field on propagation characteristics of DAWs in capacitive coupled discharge is shown in Figure 1.…”
Section: Dust Acoustic Wavesmentioning
confidence: 99%
“…In the last 25 years, a wide spectrum of experimental and theoretical studies has been devoted to explore the collective response of dusty plasma in the form of various dynamical structures/phenomena such as dust acoustic waves, [15,16,[19][20][21][22][23] rotational and vortex motion, [24][25][26][27][28][29][30][31] crystallization and phase transition, [32][33][34][35] instability driven modes, [36][37][38][39][40] and voids. [41][42][43] The major objectives of these theoretical and experimental studies of dusty plasma were to understand the dust-plasma interaction and naturally occurring dusty plasmas, control the nano-to micron-sized dust impurities in semiconductor processing industries, explore the role of impurities on the characteristics of ambient plasma in astrophysical systems, establish it as a model system to understand the complex physical systems at a microscopic level, lower the hazardous effect of solid particles on plasma confinement in fusion devices and resolve the issues of air pollution by particulate of different sizes.…”
Section: Introductionmentioning
confidence: 99%
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“…Apart from the vortex motion, dust grain medium can also be used to demonstrate the rigid rotational motion of any medium. In the presence of a weak magnetic field (B < 0.05 T), dust particles in either DC or RF discharge configuration exhibits the rigid rotational motion 20,60 . It provides a platform to learn the rotational motion of many-body systems by estimating the angular frequency of rotating particles.…”
Section: Vortex and Rigid Rotational Motionmentioning
confidence: 99%
“…8(b)). A constant angular frequency variation along radial direction indicates the rigid rotational motion of medium 60 . Thus, dusty plasma experiments at the graduate level may introduce students to the concepts of rotational motion of many-body system and vortex flow in fluids.…”
Section: Vortex and Rigid Rotational Motionmentioning
confidence: 99%