Plasma cloud detection and diagnostics from arcing by conditional averaging
Permanent link
https://hdl.handle.net/10037/11922Date
2017-06-06Type
Master thesisMastergradsoppgave
Author
Nilsen, KennethAbstract
Plasma cloud formation from arcing is experimentally studied. The arcs are formed by
a high voltage set-up in the space simulation chamber at UiT. The plasma clouds are
observed as large structures in the time series recorded by Langmuir probe and reference
probe. By using the method of conditional averaging, the structures are accentuated.
The electron cloud formed by arcing was found to be characterized by a steep drop
from zero current to a minimum, then relaxation towards zero current. Additionally,
we found the magnitude of the amplitude to the electron cloud to be decreasing when
the distance between the arc and the movable probe is increased. The average electron
cloud velocity was found to be ve = 1:32 106 ms�����1.
The ion cloud formed by arcing was found to be characterized by a current above
the steady state, which then increases logarithmically to a maximum, and then relaxes
back to the steady state. However, the ion cloud measurement revealed a negative spike
before the ion cloud, which indicates the electrons from an arc are energetic enough to
be recorded by a negatively biased probe. The average ion cloud velocity was found to
be vi = 119:2 ms�����1, however the uncertainty was large due to high scattering.
During the experiment, we discovered that breakdown of gas causes an arc-like be-
haviour of the electrons. By applying the method of conditional average, a distortion
was revealed. This result led us to a new condition that revealed that a high voltage
breakdown gives rise to an electron cloud with the velocity vH = 7694ms�����1, while the
low voltage breakdown give rise an electron cloud with the velocity vL = 5441ms�����1.
Additionally, the amplitude of the electron cloud from the high voltage breakdown were
signi cantly larger than he lower breakdown voltage. It is apparent the higher break-
down voltage creates a more energetic electron cloud than a lower breakdown voltage.
Publisher
UiT Norges arktiske universitetUiT The Arctic University of Norway
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