VISUAL DESIGN TOOL FOR ELECTROSTATIC LELSES

Authors

  • Hassan Nouri Al-Obaidi University of Mustansiriyah, College of Education, Department of Physics.
  • Ali A. Rashead Al-Azawy Collage of Science, Karbalaa University.

DOI:

https://doi.org/10.24297/jap.v5i2.1954

Keywords:

Electrostatic lens, Designing, Analysis procedure, Laplaces equation and Finite element method

Abstract

Current research presents a visual-computational tool to design and investigate round electrostatic lenses in sense of analysis procedure. The finite elements methods is adopted to find the electrostatic potential in the lens region. Laplaces equation is first replaced by a certain functional which physically represent the electric energy stored in the electric field. This functional is then minimized at each mesh point with respect to the nearest eight ones. This minimization process is proved to be entirely equivalent to solving Laplaces equation. The requirement that the functional being minimized is then yields a set of nine point equations which inter relate the potentials at adjacent mesh points. Finally this set of equations is solved to find the electrostatic potential at each mesh point in the region of the lens under consideration. The procedure steps mention above are coded to program written in visual basic. Hence an interface tool for analyzing and designing electrostatic lenses has been built up. Designing results proved that the introduced tools has an excellent outputs in comparison with the others written in not visual programming languages. Furthermore it easier for researchers and designer to use such a tool over their counterpart ones.

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Author Biography

Ali A. Rashead Al-Azawy, Collage of Science, Karbalaa University.

Department of Physics

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Published

2014-08-15

How to Cite

Al-Obaidi, H. N., & Al-Azawy, A. A. R. (2014). VISUAL DESIGN TOOL FOR ELECTROSTATIC LELSES. JOURNAL OF ADVANCES IN PHYSICS, 5(2), 778–789. https://doi.org/10.24297/jap.v5i2.1954

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