Investigation of W-fuzz cathode vacuum arcs operation time

Authors

  • Pavel Sergeevich Mikhailov
  • Ilya Lvovich Muzyukin
  • Yuriy Igorevich Mamontov
  • Yury Aleksandrovich Zemskov
  • Igor Vladimirovich Uimanov
  • Sergey Aleksandrovich Barengolts

DOI:

https://doi.org/10.54708/26587572_2023_541463

Keywords:

Fuzz layer, vacuum arc

Abstract

An experimental technique was developed to determine the vacuum arc operation time in the microsecond range on tungsten cathodes with a nanostructured fuzz layer. The samples used were tungsten plates exposed to helium plasma for 4 hours. As a result of exposure tungsten surface with helium ions, nanostructures called fuzz appear. They are thin tungsten filaments with a thickness of 10–50 nm. The average thickness of the W fuzz layer was 1 µm. A power source with a voltage of 200 V and a direct current of 0.1 to 0.7 A was used as arc supply. It is shown that, as for ordinary metal cathodes, the statistical integral distribution of the arc burning time for cathodes with a fuzz layer is random, has an exponential dependence. Vacuum arc operation time with W fuzz layer is an order of magnitude longer than for ordinary tungsten. Based on the experimental results, the average arc operation time was determined: ~1 μs for a current of 0.17 A and ~40 μs for a current of 0.7 A.

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Published

2023-12-12

How to Cite

Mikhailov П. С. ., Muzyukin И. Л. ., Mamontov Ю. И. ., Zemskov Ю. А. ., Uimanov И. В. ., & Barengolts С. А. . (2023). Investigation of W-fuzz cathode vacuum arcs operation time . Materials. Technologies. Design., 5(4 (14), 63–69. https://doi.org/10.54708/26587572_2023_541463

Issue

Vol. 5 No. 4 (14) (2023): Materials. Technologies. Design

Section

Articles