Breakdown phenomena across micrometer scale surface gap under negative voltage application

With the miniaturization of electrical devices, the insulation width and the separation between electrodes have been accordingly reduced. Consequently, electrical breakdown across micrometer-scale gaps is of great practical interest for insulation design. In this paper, electrical breakdown across m...

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Published in	IEEE transactions on dielectrics and electrical insulation Vol. 26; no. 5; pp. 1377 - 1384
Main Authors	Iwabuchi, Hiroyuki, Oyama, Tsutomu, Kumada, Akiko, Hidaka, Kunihiko
Format	Journal Article
Language	English
Published	New York IEEE 01.10.2019 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Breakdown voltage Cathodes Charged particles Computer simulation Discharges (electric) electric field emission Electric fields Electric potential electrical devices Electrical faults Field emission Insulation micrometer-scale gap Micrometers Miniaturization Neutral particles Particle in cell technique PIC-MCC method Positive ions vacuum breakdown Voltage
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Abstract	With the miniaturization of electrical devices, the insulation width and the separation between electrodes have been accordingly reduced. Consequently, electrical breakdown across micrometer-scale gaps is of great practical interest for insulation design. In this paper, electrical breakdown across micrometer scale surface gap in atmospheric air was investigated under inhomogeneous field. The breakdown was measured under negative impulse voltage and the generation and movement of neutral and charged particles were simulated based on PIC-MCC (particle-in-cell with Monte Carlo collision). The result shows that the breakdown phenomena across micrometer scale gaps is mainly determined by field emission current from the cathode surface, similar to the discharge process in vacuum. The positive ions generated by collision of electrons to neutral particles enhance the electric field near the cathode, resulting in the increase of the field emission current from the cathode.
AbstractList	With the miniaturization of electrical devices, the insulation width and the separation between electrodes have been accordingly reduced. Consequently, electrical breakdown across micrometer-scale gaps is of great practical interest for insulation design. In this paper, electrical breakdown across micrometer scale surface gap in atmospheric air was investigated under inhomogeneous field. The breakdown was measured under negative impulse voltage and the generation and movement of neutral and charged particles were simulated based on PIC-MCC (particle-in-cell with Monte Carlo collision). The result shows that the breakdown phenomena across micrometer scale gaps is mainly determined by field emission current from the cathode surface, similar to the discharge process in vacuum. The positive ions generated by collision of electrons to neutral particles enhance the electric field near the cathode, resulting in the increase of the field emission current from the cathode.
Author	Iwabuchi, Hiroyuki Oyama, Tsutomu Hidaka, Kunihiko Kumada, Akiko
Author_xml	– sequence: 1 givenname: Hiroyuki surname: Iwabuchi fullname: Iwabuchi, Hiroyuki organization: Yokohama National University, Faculty of Engineering, 79-5 Tokiwadai, Hodogaya-ku, Yokohama, 240-8501 Japan – sequence: 2 givenname: Tsutomu surname: Oyama fullname: Oyama, Tsutomu organization: Yokohama National University, Faculty of Engineering, 79-5 Tokiwadai, Hodogaya-ku, Yokohama, 240-8501 Japan – sequence: 3 givenname: Akiko surname: Kumada fullname: Kumada, Akiko organization: The University of Tokyo, Department of Engineering and Information Systems, 7-3-1 Hongo, Bunkyo-ku, Tokyo, 113-8656 Japan – sequence: 4 givenname: Kunihiko surname: Hidaka fullname: Hidaka, Kunihiko organization: The University of Tokyo, Department of Engineering and Information Systems, 7-3-1 Hongo, Bunkyo-ku, Tokyo, 113-8656 Japan
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SubjectTerms	Breakdown voltage Cathodes Charged particles Computer simulation Discharges (electric) electric field emission Electric fields Electric potential electrical devices Electrical faults Field emission Insulation micrometer-scale gap Micrometers Miniaturization Neutral particles Particle in cell technique PIC-MCC method Positive ions vacuum breakdown Voltage
Title	Breakdown phenomena across micrometer scale surface gap under negative voltage application
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