AP0979 Spectroscopy of Copper/Zinc Alloys Plasma Generated by Laser

Authors

  • Ahmed S. Ahmed Misan University Author
  • Yasir A. Ali University of Technology Author
  • Hyder A. Salih University of Technology Author
  • Khaleel I. Hassoon University of Technology Author
  • Younis Atiah Misan University Author

DOI:

https://doi.org/10.2025/re5pwf74

Abstract

In this work, atmospheric plasmas are produced from different Cu-Zn alloys by Nd:YAG laser. Three copper alloys with different zinc rations, namely Cu80-ZnE100, Cu74-ZnE100 and Cu68-ZnE100 are examined. The Boltzmann plot approach and the Stark broadening technique are utilized to determine the electron temperature and plasma density for the induced plasma by laser. The electron temperature for the Cu80-ZnE100 and Cu74-ZnE100 plasmas is enhanced by 0.78 eV, and the electron density is increased from 7.6x1015 cm-3 to 9.4x1015 cm-3 when the laser beams hit the samples, while, the electron temperature in the Cu68-ZnE100 plasma is enhanced to 0.83 eV, and the density is increased to 1.29x1016 cm-3.

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Published

30-06-2025

Issue

Vol. 21 No. 3 (2025): Iraqi Journal of Applied Physics

Section

Articles