Nanosecond repetitively pulsed plasmas with MHz bursts for CO₂ dissociation Article Swipe

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nanosecond plasma dissociation (chemistry) materials science physics chemistry optics nuclear physics laser physical chemistry

Antoine Post , Maik Budde , S C L Vervloedt , R. Engeln , T. Huiskamp ·

YOU? · · 2024 · Open Access · · DOI: https://doi.org/10.1088/1361-6463/ad40bc · OA: W4394949977

A novel pulsed power source capable of nanosecond pulses with burst frequencies up to 1 MHz is employed to create atmospheric pressure pulsed plasma in pure CO 2 gas. The short bursts contain up to four nanosecond pulses. The CO 2 conversion and corresponding energy efficiency are measured ex-situ with Fourier-transform infrared absorption spectroscopy. Trends in the absorption line profile of in-situ quantum cascade laser infrared absorption spectroscopy indicate an elevated vibrational temperature of CO 2 with an increasing number of pulses per burst. The key result of this paper is that the dissociation energy efficiency is higher when operating the plasma in burst mode. Furthermore, a larger number of pulses in a burst is associated with a further increase of the dissociation efficiency. The highest efficiency measured is % for single pulses spaced 2 ms apart, and % for bursts of three pulses, with an in-burst frequency of 1 MHz and bursts spaced 4 ms apart.