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A nanodusty plasma experiment to create extended dust clouds using reactive argon acetylene plasmas

Bidyut Chutia, T. Deka, Yoshiko Bailung, S. K. Sharma, H. Bailung

2021Physics of Plasmas15 citationsDOI

Abstract

A large volume 3D dust cloud containing in situ grown nanometer-sized particles is produced in a newly developed versatile table-top experimental device. Carbonaceous nanoparticles having almost uniform size throughout the dust cloud are grown using capacitively coupled rf discharge in Ar–C2H2 gas mixture with a low precursor gas flow rate (∼2 sccm) and minimal rf power (∼1 W). The vertical and radial extensions of the dust cloud are 40 cm and 5 cm, respectively. The pure Ar plasma in the setup is characterized by measuring the discharge parameters as well as plasma parameters under different discharge conditions. The average particle size and its temporal growth profile are determined by analyzing the scanning electron microscope images of the particles. The dust density measured using the laser extinction method is found to be of the order of 1016–1012 m−3 for the discharge duration of 2–10 min. A spontaneous dust density wave is also observed in the dust cloud.

Topics & Concepts

PlasmaPhysicsArgonVolume (thermodynamics)Analytical Chemistry (journal)Volumetric flow rateAtomic physicsPlasma parametersExtinction (optical mineralogy)Dusty plasmaParticle (ecology)OpticsMechanicsChemistryChromatographyQuantum mechanicsGeologyOceanographyDust and Plasma Wave PhenomenaIonosphere and magnetosphere dynamicsHigh-pressure geophysics and materials
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