Saved in:
Bibliographic Details
Main Authors: Jean-Marie-Desiree, Ronny, Najah, Aymane, Noël, Cédric, de Poucques, Ludovic, Cuynet, Stephane
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2404.08276
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866910407531167744
author Jean-Marie-Desiree, Ronny
Najah, Aymane
Noël, Cédric
de Poucques, Ludovic
Cuynet, Stephane
author_facet Jean-Marie-Desiree, Ronny
Najah, Aymane
Noël, Cédric
de Poucques, Ludovic
Cuynet, Stephane
contents Time-resolved electric field strength measurements have been performed, using an electric-field induced second harmonic (E-FISH) diagnostic, in a nanosecond glow discharge of an impulse dielectric barrier discharge (iDBD), in an ammonia gas environment. A temporal resolution of 2 ns and a spatial resolution estimated at 70 $μ$m (given by laser waist) have been achieved. The comparative study of E-FISH measurements with and without a plasma discharge, operated at 4 kHz, reveal the presence of a persistent counter electric field, which is assumed to be caused by charge accumulation in between the AlN dielectrics used. Furthermore, by studying the influence of the applied voltage, the pressure, and the inter-dielectric distance, measurements seem to indicate the presence of charges remaining also in the post-discharge volume from the previous discharge to the next one.\&\#xD;
format Preprint
id arxiv_https___arxiv_org_abs_2404_08276
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Time-resolved investigations of a glow mode impulse dielectric barrier discharge in pure ammonia gas by means of E-FISH diagnostic
Jean-Marie-Desiree, Ronny
Najah, Aymane
Noël, Cédric
de Poucques, Ludovic
Cuynet, Stephane
Plasma Physics
Time-resolved electric field strength measurements have been performed, using an electric-field induced second harmonic (E-FISH) diagnostic, in a nanosecond glow discharge of an impulse dielectric barrier discharge (iDBD), in an ammonia gas environment. A temporal resolution of 2 ns and a spatial resolution estimated at 70 $μ$m (given by laser waist) have been achieved. The comparative study of E-FISH measurements with and without a plasma discharge, operated at 4 kHz, reveal the presence of a persistent counter electric field, which is assumed to be caused by charge accumulation in between the AlN dielectrics used. Furthermore, by studying the influence of the applied voltage, the pressure, and the inter-dielectric distance, measurements seem to indicate the presence of charges remaining also in the post-discharge volume from the previous discharge to the next one.\&\#xD;
title Time-resolved investigations of a glow mode impulse dielectric barrier discharge in pure ammonia gas by means of E-FISH diagnostic
topic Plasma Physics
url https://arxiv.org/abs/2404.08276