Ttj Clevis scite author profile

Ttj Clevis

3Publications

80Citation Statements Received

113Citation Statements Given

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Affiliations

Eindhoven University of Technology, Griffith University, Quantum (Australia)

Publications

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Inception and propagation of positive streamers in high-purity nitrogen: effects of the voltage rise rate

Clevis¹,

Nijdam²,

Ebert³

2012

J. Phys. D: Appl. Phys.

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Abstract. Controlling streamer morphology is important for numerous applications. Up to now, the effect of the voltage rise rate was only studied across a wide range. Here we show that even slight variations in the voltage rise can have significant effects.We have studied positive streamer discharges in a 16 cm point-plane gap in highpurity nitrogen 6.0, created by 25 kV pulses with a duration of 130 ns. The voltage rise varies by a rise rate from 1.9 kV/ns to 2.7 kV/ns and by the first peak voltage of 22 to 28 kV. A structural link is found between smaller discharges with a larger inception cloud caused by a faster rising voltage. This relation is explained by the greater stability of the inception cloud due to a faster voltage rise, causing a delay in the destabilisation. Time-resolved measurements show that the inception cloud propagates slower than an earlier destabilised, more filamentary discharge. This explains that the discharge with a faster rising voltage pulse ends up to be shorter.Furthermore, the effect of remaining background ionization in a pulse sequence has been studied, showing that channel thickness and branching rate are locally affected, depending on the covered volume of the previous discharge.

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Extreme Ultraviolet Interferometer Using High-Order Harmonic Generation from Successive Sources

et al. 2012

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We present a new interferometer technique whereby multiple extreme ultraviolet light pulses are generated at different positions within a single laser focus (i.e., from successive sources) with a highly controllable time delay. The interferometer technique is tested with two generating media to create two extreme ultraviolet light pulses with a time delay between them. The delay is found to be a consequence of the Gouy phase shift. Ultimately the apparatus is capable of accessing unprecedented time scales by allowing stable and repeatable delays as small as 100 zs.

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Streamer knotwilg branching: sudden transition in morphology of positive streamers in high-purity nitrogen

Heijmans

Clevis

Nijdam

et al. 2015

J. Phys. D: Appl. Phys.

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We describe a peculiar branching phenomenon in positive repetitive streamer discharges in high purity nitrogen. We name it knotwilg branching after the Dutch word for a pollard willow tree. In a knotwilg branching a thick streamer suddenly splits into many thin streamers. Under some conditions this happens for all streamers in a discharge at about the same distance from the high-voltage electrode tip. At this distance, the thick streamers suddenly bend sharply and appear to propagate over a virtual surface surrounding the high-voltage electrode, rather than following the background electric field lines. From these bent thick streamers many, much thinner, streamers emerge that roughly follow the background electric field lines, creating the characteristic knotwilg branching. We have only found this particular morphology in high purity nitrogen at pressures in the range 50 to 200 mbar and for pulse repetition rates above 1 Hz; the experiments were performed for an electrode distance of 16 cm and for fast voltage pulses of 20 or 30 kV. These observations clearly disagree with common knowledge on streamer propagation. We have analyzed the data of several tens of thousands of discharges to clarify the phenomena. We also present some thoughts on how the ionization of the previous discharges could concentrate into some pre-ionization region near the needle electrode and create the knotwilg morphology, but we present no final explanation.

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Ttj Clevis

Inception and propagation of positive streamers in high-purity nitrogen: effects of the voltage rise rate

Extreme Ultraviolet Interferometer Using High-Order Harmonic Generation from Successive Sources

Streamer knotwilg branching: sudden transition in morphology of positive streamers in high-purity nitrogen

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