Penetration of Ar and He RF-driven plasma jets into micrometer sized capillary tubes

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Penetration of Ar and He RF-driven plasma jets into micrometer sized capillary tubes

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2018-07

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Abstract

The penetration and propagation of cold atmospheric pressure plasmas into volumes having sub-millimeter to micrometer sizes with large aspect ratios is required for enabling an effective disinfection of the inside of catheter tubes, tooth cavities, skin pores and enhance plasma catalysis in porous catalysts. As filamentary plasmas have often a characteristic diameter on the same length scale as tubes or pores, the penetration of plasma in these tubes and pores is not a priori obvious and can have a huge effect on the plasma properties. Particularly for medical applications, especially on teeth and skin, it is important that the plasma operates at low voltages and near ambient gas temperatures. This study has a goal to complement existing research in this area that has mainly been focused on pulsed discharges with significant overvoltage. We report on a study using RF driven argon and helium plasma jets with the plasma generation outside the capillary followed by its penetration and propagation inside the capillary. We present the experimental determination of the limitations on the penetration diameter, and the underpinning mechanisms of the plasma propagation and penetration process. Experimental results include time resolved imaging of plasma propagation and penetration in capillaries with different internal diameter and report surface electric field measurements. We found that the time between the plasma jet in first contact with the capillary tube surface and the subsequent penetration into the capillary tube spans several RF cycles due to electric fields at the plasma-tube interface below 4 kV/cm. These low electric fields require Penning ionization and/or stepwise ionization and hence a build up of the metastable and electron density to achieve a locally sufficiently large ionization rate to enable penetration and propagation. Furthermore, it is found that the propagation of the argon jet into the capillary occurs during the positive half cycle of the RF waveform and is very similar to the propagation of the jet in surrounding air.

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University of Minnesota M.S. thesis. July 2018. Major: Mechanical Engineering. Advisor: Peter Bruggeman. 1 computer file (PDF); vi, 36 pages.

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Brahme, Amita. (2018). Penetration of Ar and He RF-driven plasma jets into micrometer sized capillary tubes. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/200150.

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