Jan Paszkiewicz scite author profile

Understanding the microscopic phenomena behind vacuum arc ignition and generation is crucial for being able to control the breakdown rate, thus improving the effectiveness of many high-voltage applications where frequent breakdowns limit the operation. In this work, statistical properties of various aspects of breakdown, such as the number of pulses between breakdowns, breakdown locations and crater sizes are studied independently with almost identical Pulsed DC Systems at the University of Helsinki and in CERN. In high-gradient experiments, copper electrodes with parallel plate capacitor geometry, undergo thousands of breakdowns. The results support the classification of the events into primary and secondary breakdowns, based on the distance and number of pulses between two breakdowns. Primary events follow a power law on the log-log scale with the slope α ≈ 1.30, while the secondaries are highly dependent on the pulsing parameters.

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Dark current spikes as an indicator of mobile dislocation dynamics under intense dc electric fields

Engelberg

Paszkiewicz

Peacock

et al. 2020

Phys. Rev. Accel. Beams

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Spatially Resolved Dark Current in High Gradient Traveling Wave Structures

Paszkiewicz¹,

Burrows²,

Wuensch³

2019

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Statistical Analysis of Field-Emission Currents

et al. 2021

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Jan Paszkiewicz

CERN Yellow Reports: Monographs, Vol 2 (2018): The Compact Linear e+e− Collider (CLIC) : 2018 Summary Report

Classification of vacuum arc breakdowns in a pulsed dc system

Dark current spikes as an indicator of mobile dislocation dynamics under intense dc electric fields

Spatially Resolved Dark Current in High Gradient Traveling Wave Structures

Statistical Analysis of Field-Emission Currents

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